A method for activating a service associated with an object includes acquiring a position by a geolocation system of a device rigidly attached to the object; calculating an activation code from the acquired position; displaying the activation code; transmitting the activation code by an electronic mobile terminal including a wireless interface to a remote entity; receiving a response code by the electronic mobile terminal, the response code being generated by the remote entity; acquiring the response code by an input interface of the device; decoding the response code by the device; generating a command for unlocking a service associated with the object rigidly attached to said device.

A rotary knob that rotates in a pushed state includes an extending portion extending in a rotation direction of the rotary knob, and the extending portion includes a cutout portion cut out so as to prevent a first switch that detects that the rotary knob is pushed in from being pressed in a case where the rotary knob is in an intermediate range in which the rotary knob is in a pushed state.

A rotary knob that rotates in a pushed state includes an extending portion extending in a rotation direction of the rotary knob, and the extending portion includes a cutout portion cut out so as to prevent a first switch that detects that the rotary knob is pushed in from being pressed in a case where the rotary knob is in an intermediate range in which the rotary knob is in a pushed state.

A rotary knob that rotates in a pushed state includes an extending portion extending in a rotation direction of the rotary knob, and the extending portion includes a cutout portion cut out so as to prevent a first switch that detects that the rotary knob is pushed in from being pressed in a case where the rotary knob is in an intermediate range in which the rotary knob is in a pushed state.

A rotary knob that rotates in a pushed state includes an extending portion extending in a rotation direction of the rotary knob, and the extending portion includes a cutout portion cut out so as to prevent a first switch that detects that the rotary knob is pushed in from being pressed in a case where the rotary knob is in an intermediate range in which the rotary knob is in a pushed state.

A method for activating a service associated with an object includes acquiring a position by a geolocation system of a device rigidly attached to the object; calculating an activation code from the acquired position; displaying the activation code; transmitting the activation code by an electronic mobile terminal including a wireless interface to a remote entity; receiving a response code by the electronic mobile terminal, the response code being generated by the remote entity; acquiring the response code by an input interface of the device; decoding the response code by the device; generating a command for unlocking a service associated with the object rigidly attached to said device.

A saddled vehicle includes a steering stem inserted into a center part of a top bridge and having an upper end to be fixed to the top bridge with a fastening member. The saddled vehicle includes a handle locking device placed behind the top bridge in the vehicle front-rear direction. The handle locking device has a locking member and the top bridge includes a retaining recess on the rear face for detachable engagement with the locking member. The center part of the top bridge has a through hole for penetration of the steering stem and a storage recess that stores the upper end of the steering stem and the fastening member and is open toward the upper face of the top bridge. The storage recess continues to the upper part of the through hole while having a bottom that faces upward and is located between the through hole and the wall of the storage recess. The top bridge has a drainage hole connecting the storage recess and the retaining recess.

A saddled vehicle includes a steering stem inserted into a center part of a top bridge and having an upper end to be fixed to the top bridge with a fastening member. The saddled vehicle includes a handle locking device placed behind the top bridge in the vehicle front-rear direction. The handle locking device has a locking member and the top bridge includes a retaining recess on the rear face for detachable engagement with the locking member. The center part of the top bridge has a through hole for penetration of the steering stem and a storage recess that stores the upper end of the steering stem and the fastening member and is open toward the upper face of the top bridge. The storage recess continues to the upper part of the through hole while having a bottom that faces upward and is located between the through hole and the wall of the storage recess. The top bridge has a drainage hole connecting the storage recess and the retaining recess.

An improved enclosed electric motorcycle has an electric motor directly driving the rear wheel with a chain or a belt. A pair of steering handles and an accelerator foot pedal enables a driver to drive the motorcycle like an automobile. The pair of the landing wheel assemblies individually has a take-up assembly to reduce their sprung weights, and has an electric motor to increase reliability. By adding a pair of anti-skid wheels, the driver can avoid many accidents. An inflatable safety belt and a pair of side airbags will protect the driver in an accident. If the battery pack explodes, it will be ejected away from the motorcycle to protect the driver. A drive-in electric engaging device enables the driver to drive the motorcycle to engage with a stationary charging station for charging its battery pack while parking.

A structure of rocking lock operation part for a saddle riding vehicle, the structure of rocking lock operation part includes a rocking lock mechanism configured to lock lateral rocking of a vehicle body and a lock operator configured to switch between locking and unlocking of the rocking lock mechanism, wherein the rocking lock mechanism and the lock operator are disposed on the vehicle body, and, when seen in a side view, a gripping section of the lock operator is disposed in front of a position overlapping a pivot support member configured to pivotably support the steering handle in the vehicle body and disposed in rear of a headlight disposed in front of the pivot support member.