The present utility model discloses a tire fastening device, comprising a support seat, wherein an end portion of the support seat is slidably connected to a moving rod, a collar is sleeved and mounted on an outer surface of the moving rod, a fastening plate is welded and fixed on both a lower surface of the collar and a side surface of the support seat, a fixing plate is welded and fixed at one end inside the support seat, a screw rod is rotatably connected to a bearing via the fixing plate inside the support seat, and a second torsion gear is welded and fixed at one side of the fixing plate at an end portion of the screw rod; by designing the screw rod inside the support seat, and designing the first connecting plate and the moving head at the end of the moving rod, it is possible to move the moving head on the outer surface of the screw rod when the support seat and the fastening plate are closed on one side of the tire when the screw rod situ, and the moving rod is moved on the end of the support seat by the first connecting plate when the moving head moves.

The present utility model discloses a tire fastening device, comprising a support seat, wherein an end portion of the support seat is slidably connected to a moving rod, a collar is sleeved and mounted on an outer surface of the moving rod, a fastening plate is welded and fixed on both a lower surface of the collar and a side surface of the support seat, a fixing plate is welded and fixed at one end inside the support seat, a screw rod is rotatably connected to a bearing via the fixing plate inside the support seat, and a second torsion gear is welded and fixed at one side of the fixing plate at an end portion of the screw rod; by designing the screw rod inside the support seat, and designing the first connecting plate and the moving head at the end of the moving rod, it is possible to move the moving head on the outer surface of the screw rod when the support seat and the fastening plate are closed on one side of the tire when the screw rod situ, and the moving rod is moved on the end of the support seat by the first connecting plate when the moving head moves.

A vehicle includes a first sensor that senses a state of the vehicle and a second sensor that senses outside of the vehicle. A computing device is configured to receive signals from the sensors and to control rotating and turning of the wheels. While the vehicle is parked, the computing device determines according to a signal received from the sensors, that a condition is satisfied. The condition may be associated with a particular wheel. Based on determining that the condition is satisfied, and while the vehicle remains parked, the computing device initiates automatically rotating or turning the particular wheel associated with the condition.

A vehicle includes a first sensor that senses a state of the vehicle and a second sensor that senses outside of the vehicle. A computing device is configured to receive signals from the sensors and to control rotating and turning of the wheels. While the vehicle is parked, the computing device determines according to a signal received from the sensors, that a condition is satisfied. The condition may be associated with a particular wheel. Based on determining that the condition is satisfied, and while the vehicle remains parked, the computing device initiates automatically rotating or turning the particular wheel associated with the condition.

A wheel immobilizer has a plurality of C-shaped members extendable about the wheel, including a telescopic member that is lockable in place. A unit connector and a wheel fastener cover are shaped to extend about fasteners of the wheel. The unit connector includes a threaded member and is shaped to enable macro and micro adjustments of the extent to which the wheel fastener cover extends from the C-shaped members. Slots of the unit connector enable the wheel immobilizer to couple together within a plane in a storage position. Projections of the wheel immobilizer inhibit rotation of the wheel and are tuned to make a noise when rotation of the wheel is attempted. An elongate round member is positioned within the telescopic member and configured to inhibit cutting therethrough. C-shaped members are rotatably coupled together via detent mechanisms the tension of which is adjusted via set screws which are externally accessible.

A vehicle locking boot includes a horizontal support arm and a first vertical support arm extending from the horizontal support arm. The first vertical support arm includes a front engagement protrusion extending therefrom. A receiving sleeve extends from the horizontal support arm at a base of the first vertical support arm. A horizontal extension portion is coupled to the horizontal support arm. A second vertical support arm extends from the horizontal extension portion along a direction orthogonal to the upper surface of the horizontal support arm. The second vertical support arm includes a rear engagement protrusion extending therefrom. The front engagement protrusion faces the rear engagement protrusion. A keypad is disposed on the first engagement portion. The keypad is configured to lock and unlock the horizontal extension portion. A lug nut blocking plate is coupled to the first vertical support arm above the first engagement protrusion.

A vehicle locking boot includes a horizontal support arm and a first vertical support arm extending from the horizontal support arm. The first vertical support arm includes a front engagement protrusion extending therefrom. A receiving sleeve extends from the horizontal support arm at a base of the first vertical support arm. A horizontal extension portion is coupled to the horizontal support arm. A second vertical support arm extends from the horizontal extension portion along a direction orthogonal to the upper surface of the horizontal support arm. The second vertical support arm includes a rear engagement protrusion extending therefrom. The front engagement protrusion faces the rear engagement protrusion. A keypad is disposed on the first engagement portion. The keypad is configured to lock and unlock the horizontal extension portion. A lug nut blocking plate is coupled to the first vertical support arm above the first engagement protrusion.

Secure access to a vehicle is described, in which one or more biometric identifiers of a user may be utilized to enable the vehicle. The user may not operate the vehicle without satisfying security measures based on his/her biometric identifier generated from various biological traits. In some embodiments, an artificial engine and/or algorithm may be combined to facilitate the authentication process to determine whether the user is authorized to use the vehicle. The secure access features may also manage a list of biometric identifiers of the authorized users. In some instances, the secure access features may be temporarily disabled. Further, individual parts of the vehicle may be associated with a unique identifier of the vehicle (which may include a vehicle identification number), and/or may be configured to transmit their geological locations determined by a global positioning system (GPS).

Secure access to a vehicle is described, in which one or more biometric identifiers of a user may be utilized to enable the vehicle. The user may not operate the vehicle without satisfying security measures based on his/her biometric identifier generated from various biological traits. In some embodiments, an artificial engine and/or algorithm may be combined to facilitate the authentication process to determine whether the user is authorized to use the vehicle. The secure access features may also manage a list of biometric identifiers of the authorized users. In some instances, the secure access features may be temporarily disabled. Further, individual parts of the vehicle may be associated with a unique identifier of the vehicle (which may include a vehicle identification number), and/or may be configured to transmit their geological locations determined by a global positioning system (GPS).

Secure access to a vehicle is described, in which one or more biometric identifiers of a user may be utilized to enable the vehicle. The user may not operate the vehicle without satisfying security measures based on his/her biometric identifier generated from various biological traits. In some embodiments, an artificial engine and/or algorithm may be combined to facilitate the authentication process to determine whether the user is authorized to use the vehicle. The secure access features may also manage a list of biometric identifiers of the authorized users. In some instances, the secure access features may be temporarily disabled. Further, individual parts of the vehicle may be associated with a unique identifier of the vehicle (which may include a vehicle identification number), and/or may be configured to transmit their geological locations determined by a global positioning system (GPS).