A device is for fixing equipment to an end of the inner surface of a tube. The device has an elongated body, a ring adapted to surround and slide along a segment of the elongated body, and at least two flaps rotatable on the ring. Each hole in the elongated body is adapted for bearing a bolt aligned with the longitude of the elongated body. The ring has at least two threaded bores designed to mate with the threads of the bolts so that the position of the ring on the elongated body is controllable by applying torque to the bolts; and the flaps are positioned homogenously around the ring. The elongated body has at least one portion adapted to guide the flaps so that the flaps radially open against the inner surface of the tube.

Provided is an electric vehicle. The electric vehicle includes: a first power source, a target component and an electrical control component integrated to the target component; the first power source is connected with the electrical control component and is configured to supply the power to the electrical control component; and the electrical control component is configured to unlock, under a condition in which the electric vehicle is locked, when target information matched with a stored target account number is detected, the electric vehicle. With the disclosure, the problems of complex structural design and troublesome unlocking operation of the electric vehicle in the related art are solved.

Provided is an electric vehicle. The electric vehicle includes: a first power source, a target component and an electrical control component integrated to the target component; the first power source is connected with the electrical control component and is configured to supply the power to the electrical control component; and the electrical control component is configured to unlock, under a condition in which the electric vehicle is locked, when target information matched with a stored target account number is detected, the electric vehicle. With the disclosure, the problems of complex structural design and troublesome unlocking operation of the electric vehicle in the related art are solved.

A parking and charging station for electric vehicles, the parking and charging station has a small footprint and data transfer capability. The electric vehicles may include e-bikes and e-scooters, but other similar vehicles may also be supported. The parking and charging station may include a vertical automatic and motorized conveyor. The parking and charging station may include a standalone vertical post with one or more bars attached horizontally.

A lock for locking a bike is provided. To lock the bike, a user inserts a rope head into a lock through a lock hole. The rope head drives a slider in the lock, and the slider drives a pin, causing an upper-rotation shaft of the lock become not linked to move with a lower-rotation shaft of the lock. Since the upper-rotation shaft and the lower-rotation shaft of the lock are respectively connected to a handlebar and a front wheel of the bike, the user is unable to control the front wheel through the handlebar. The rope head may also be connected to a rope, and when locking the lock, the user pulls the rope out from the lock, wraps the rope around a fixed object, and then inserts the rope head into the lock through the lock hole.

To provide a rider recognition device for a human-powered vehicle and a control system of a human-powered vehicle that improve the usability, a rider recognition device for a human-powered vehicle includes a detector and an artificial intelligence processing unit. The detector detects state information while the human-powered vehicle is traveling. The state information is related to at least one of a state of the human-powered vehicle and a state of a rider of the human-powered vehicle. The artificial intelligence processing unit recognizes the rider corresponding to the state information detected by the detector.

Systems and methods for collecting electric scooters are described herein. In some embodiments, the systems and methods facilitate a “snaking” configuration of attaching, coupling, or fixing multiple electric scooters to one another. The snaking configuration enables multiple electric scooters to be collected together and moved to various locations, such as locations where the electric scooters can be rented, serviced, and so on. Further, the systems and methods enable any electric scooter to act as a collecting scooter, and thus a scooter share service or other fleet of scooters can manage the collection and provisioning of scooters in a location without special vehicles or equipment, among other benefits.

The present disclosure provides a method for controlling an electric scooter and electric scooter, wherein the method comprises: a first target operation performed on the electric scooter is detected in a case that the electric scooter is unlocked by using a target account; the electric scooter is set to be in a temporarily locked state in response to the first target operation, wherein the electric scooter in the temporarily locked state is set to allow to be unlocked only by the target account within a target duration after detecting the first target operation the electric scooter in the temporarily locked state is unlocked in a case that a second target operation performed on the electric scooter is detected within the target duration. The present disclosure solves the problem existed in the method for controlling an electric scooter in the related art that the electric scooter is easily used by others when the electric scooter is temporarily stopped using.

A bicycle includes a frame, a motor, a battery, a key interface, a crank set, and a shell. The frame defines a cavity and an opening providing access to the cavity. The motor is coupled to frame beneath the cavity. The battery extends at least partially into the frame. The battery is configured to power the motor. The key interface is positioned along an exterior of the frame. Turning a key in the key interface releases the battery to facilitate removing the battery from the frame. The crank set is coupled to the motor. The crank set includes crank arms. The shell extends at least partially over the opening.

A clutch locking mechanism is a clutch locking mechanism (80) mounted in a saddle type vehicle (1) and includes a clutch (26) which enters an engaged state where power can be transmitted when an actuator (28) is operated and returns to a disengaged state where power cannot be transmitted when the actuator (28) is not operated, and a locking mechanism (100) having an operator (101) which is able to bring the clutch (26) into the engaged state separately from an operation of the actuator (28).