Lock mounting assemblies are disclosed for storing and mounting a locking apparatus to a transportation device. The mounting assemblies include one or more straps or connectors for securing the mounting assembly to the transportation device. The mounting assemblies having a structure to securely retain the locking apparatus on the transportation device and provide easy access to and release of the locking apparatus from the mounting assembly.

Lock mounting assemblies are disclosed for storing and mounting a locking apparatus to a transportation device. The mounting assemblies include one or more straps or connectors for securing the mounting assembly to the transportation device. The mounting assemblies having a structure to securely retain the locking apparatus on the transportation device and provide easy access to and release of the locking apparatus from the mounting assembly.

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.

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.

An electronic lock includes a casing, a locking component, an actuating component, a pushing component, a contacting component and an electric motor. The locking component can be switched between a lock position and an unlock position, and has a first inclined portion. The actuating component has a second inclined portion slidably abutting against the first inclined portion. The pushing component is connected to the actuating component and protrudes from the casing. The pushing component is pressed by an external force to move the locking component from the unlock position to the lock position via a relative movement between the first inclined portion and the second inclined portion. The contacting component movably contacts against the actuating component to constrain the locking component in the lock position. The electric motor is connected to the contacting component, and can separate the contacting component from the actuating component by a control command.

An electronic lock includes a casing, a locking component, an actuating component, a pushing component, a contacting component and an electric motor. The locking component can be switched between a lock position and an unlock position, and has a first inclined portion. The actuating component has a second inclined portion slidably abutting against the first inclined portion. The pushing component is connected to the actuating component and protrudes from the casing. The pushing component is pressed by an external force to move the locking component from the unlock position to the lock position via a relative movement between the first inclined portion and the second inclined portion. The contacting component movably contacts against the actuating component to constrain the locking component in the lock position. The electric motor is connected to the contacting component, and can separate the contacting component from the actuating component by a control command.

A lock assembly includes a casing, a blocking unit, and a lock unit. The blocking unit includes a blocking member operable to move between an open position and a block position. The lock unit includes an engaging member, an electric unlock module, and a manual unlock module. The engaging member has a main body having first and second abutment portions, and is movable between an engaging position for engaging the blocking member when the blocking member is in the block position, and an unlocked position for disengaging from the blocking member. One of the electric unlock module and the manual unlock module is operable to abut a push member thereof against a corresponding one of the first and second abutment portions to linearly move the engaging member.

A lock assembly includes a casing, a blocking unit, and a lock unit. The blocking unit includes a blocking member operable to move between an open position and a block position. The lock unit includes an engaging member, an electric unlock module, and a manual unlock module. The engaging member has a main body having first and second abutment portions, and is movable between an engaging position for engaging the blocking member when the blocking member is in the block position, and an unlocked position for disengaging from the blocking member. One of the electric unlock module and the manual unlock module is operable to abut a push member thereof against a corresponding one of the first and second abutment portions to linearly move the engaging member.

Systems and methods for a removable battery locking mechanism, comprising: an adjustable rail 100 comprising a bolt 102 connecting a lower segment 103 and an upper segment 104, wherein said adjustable rail allow a user to adjust the rail's length to snuggly accommodate a battery 101 and fit in said battery's rail recess; said rail having opening 105, 106 in its lower and upper segments to allow it to be removably connected to a mobility device using connecting means which are hidden while said battery is connected to said mobility device; said upper and lower segments having protruding parts 108, 109 in the side opposite to said battery adapted to receive said bolt extrude sufficient distance hit said mobility device's frame; said rail's upper segment having a recess 110 adapted to receive said battery's locking pin and reinforced external part adapted to cover said pin; said rail's upper segment having an adjustable screw 111 located in the upper part of said upper segment protruding to the battery side allowing a user to adjust said screw to the touch said battery while inserted.

Systems and methods for a removable battery locking mechanism, comprising: an adjustable rail 100 comprising a bolt 102 connecting a lower segment 103 and an upper segment 104, wherein said adjustable rail allow a user to adjust the rail's length to snuggly accommodate a battery 101 and fit in said battery's rail recess; said rail having opening 105, 106 in its lower and upper segments to allow it to be removably connected to a mobility device using connecting means which are hidden while said battery is connected to said mobility device; said upper and lower segments having protruding parts 108, 109 in the side opposite to said battery adapted to receive said bolt extrude sufficient distance hit said mobility device's frame; said rail's upper segment having a recess 110 adapted to receive said battery's locking pin and reinforced external part adapted to cover said pin; said rail's upper segment having an adjustable screw 111 located in the upper part of said upper segment protruding to the battery side allowing a user to adjust said screw to the touch said battery while inserted.