An electronic shift control system includes a first bicycle control device including a first housing, a first brake lever, and a first switch configured to generate a first signal when actuated. The electronic shift control system additionally includes a second bicycle control device including a second housing, a second brake lever, and a second switch configured to generate a second signal when actuated. The first bicycle control device is configured to wirelessly transmit both the first signal and the second signal.

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 operating device is provided for a human-powered vehicle. The operating device basically includes a base, first and second electric switches, and first and second operating members. The first operating member is movable with respect to the base to activate the first electric switch as the first operating member moves from a non-operated position to an intermediate operating position, and then activate the activate an electric switch different from the first electric switch as the first operating member moves from the intermediate operating position to an additional operating position. The second operating member is movable with respect to the base to activate the second electric switch as the second operating member moves from a non-operated position to an intermediate operating position, and then activate the electric switch as the second operating member moves from the intermediate operating position of the second operating member to an additional operating position.

The present invention relates to a dual control throttle system for actuating rescue, safety, recreational, and all-terrain vehicles. The throttle system has two individual throttle cables attached to a handlebar and are independently controlled by a corresponding throttle control. The cables are attached to a carburetor having slots/connectors for connecting the throttles cables. Each throttle cable system can be independently used for actuating a vehicle and enables users to actuate the opposite throttle should the first throttle and/or cable malfunction, ensuring the vehicle remains operational and therefore, prevents rescue situations from taking additional time due to malfunctioning rescue, safety, and recreational vehicles. The cables can be secured to a central plate and yoke for vehicles whose steering unit can rotate 360 degrees.

A bicycle control assembly may be provided for operating an electromechanical gear shifting device. The control assembly includes a graspable housing mountable to the bicycle, a power supply connected to the control assembly disposed in the housing, a first operating member movably connected to the housing, and electronic componentry disposed on the first operating member. The electronic componentry may include an electrical switch, a controller in communication with the electrical switch and configured to generate a signal to change a shift position of the gear shifting device responsive to an input from the electrical switch, and an antenna in communication with the controller and configured to send the signal. The control assembly may also include a cable extending from the housing to the first operating member connecting the power supply and the electronic componentry.

A bicycle control assembly may be provided for operating an electromechanical gear shifting device. The control assembly includes a graspable housing mountable to the bicycle, a power supply connected to the control assembly disposed in the housing, a first operating member movably connected to the housing, and electronic componentry disposed on the first operating member. The electronic componentry may include an electrical switch, a controller in communication with the electrical switch and configured to generate a signal to change a shift position of the gear shifting device responsive to an input from the electrical switch, and an antenna in communication with the controller and configured to send the signal. The control assembly may also include a cable extending from the housing to the first operating member connecting the power supply and the electronic componentry.

This invention refers to a vehicle specifically designed to be used as transportation during a golf game. It is an individual transportation vehicle that includes three main support structures: one front structure, one intermediate structure, and one rear structure, where a couple of tires are located, as well as a support mechanism to keep the vehicle standing, a leveling clamping mechanism for a bag for the golf clubs, and many accessories that allow the driver to safeguard and access to several useful elements during the game, such as the scorecard, the golf balls, the support tees, mobile devised and even drinks, all of them safeguarded in a cavity underneath the seat. The vehicle is designed to meet with the regulations that rule vehicles authorized to move within the terrain of a golf course.

The disclosure provides a bicycle caliper including a casing assembly and a plurality of pistons. The casing assembly has a first fluid inlet, a second fluid inlet, a first fluid channel, a plurality of piston chambers, and a second fluid channel. The first fluid channel has a first connection opening and a second connection opening opposite to each other. The first connection opening and the second connection opening of the first fluid channel are respectively in fluid communication with the first fluid inlet and the second fluid inlet. The first fluid channel penetrates through the piston chambers. Two opposite openings of the second fluid channel are respectively in fluid communication with the first connection opening and the second connection opening of the first fluid channel, and the second fluid channel does not penetrate through the piston chambers. The pistons are respectively and movably disposed in the piston chambers.

The disclosure provides a bicycle caliper including a casing assembly and a plurality of pistons. The casing assembly has a first fluid inlet, a second fluid inlet, a first fluid channel, a plurality of piston chambers, and a second fluid channel. The first fluid channel has a first connection opening and a second connection opening opposite to each other. The first connection opening and the second connection opening of the first fluid channel are respectively in fluid communication with the first fluid inlet and the second fluid inlet. The first fluid channel penetrates through the piston chambers. Two opposite openings of the second fluid channel are respectively in fluid communication with the first connection opening and the second connection opening of the first fluid channel, and the second fluid channel does not penetrate through the piston chambers. The pistons are respectively and movably disposed in the piston chambers.

A brake handle structure for a bicycle contains: at least one body, at least one rotatory arm, at least one brake lever, at least one angle signal sensor, and at least one power failure sensor. The at least one body includes a connection portion, an extension, and an engagement portion. The at least one rotatory arm includes a pulling segment, a coupling orifice, and a receiving orifice. The at least one brake lever includes a fixing segment connected with at least one electromagnetic clutch which includes a bolt attracted electromagnetically by the at least one electromagnetic clutch after conducting a power, and a defining orifice is defined adjacent to the at least one electromagnetic clutch. The at least one angle signal sensor is configured to sense and send a rotating angle of the rotatable column. The at least one power failure sensor has a movable sensing head.