Abstract: The invention relates to a driveshaft lock (10) and to a method (50) of retrofitting the driveshaft lock to a vehicle. The driveshaft lock (10) includes a rotor (17) which defines a star-shaped central aperture (20) which is configured to receive a non-circular, peripheral profile of a drive flange (13) therethrough such that the rotor (17) is configured to piggyback on the drive flange (13). The lock (10) includes a locking member (21) which is configured selectively to engage the rotor (17) in order to lock the rotor in position and prevent angular displacement thereof. Amongst other steps, the method (50) includes aligning the aperture (20) of the rotor with the profile of the drive flange, passing the rotor over the drive flange, rotating the rotor relative to the drive flange, and securing the rotor to the drive flange for rotation together with the drive flange, piggyback-style.

Abstract: An anti-theft device 10 is operatively connected to a vehicle drivetrain, downstream of a power plant. To this end, a gear 12 is mounted for rotation together with a driveshaft 13. The device 10 further includes a pivotally mounted locking pawl 17 which is movable relative to the gear 12 between an open position in which a profiled head 18 of the pawl 17 is spaced away from a periphery of the gear 12 such that the gear 12 is permitted to rotate freely together with the driveshaft 13, and a locked position, in which the profiled head 18 of the pawl 17 engages the gear 12 and prevents rotation thereof, thereby locking the driveshaft 13 in position. The device includes an actuator 23 and ECU 22 in a tamper-proof casing 27. The ECU controls engagement of the pawl depending upon a position of a handbrake and ignition switch.

Abstract: A remotely activated vehicle anti-theft device 10 and system 50 for preventing vehicle theft is provided. The device 10 is moved between unlocked, locked and priority locked states using either a wireless vehicle remote 51 or a mobile phone 52. The mobile phone 52 enjoys priority over the remote control 51 and overrides it when the device is in its priority locked state. It includes a pivotal locking member 17 which is movable between an open position (unlocked state) in which the member is spaced away from a gear 12, permitting it to rotate freely, and a locked position (locked and priority locked states), in which the member 17 engages the gear 12 and prevents rotation thereof, thereby immobilising a vehicle. The device 10 includes an ECU 22, wireless communication module 34, actuator 23, GPS 6 and speed sensor 7 housed in a tamper-proof casing 27.

Abstract: The invention relates to a driveshaft lock (10) and to a method (50) of retrofitting the driveshaft lock to a vehicle. The driveshaft lock (10) includes a rotor (17) which defines a star-shaped central aperture (20) which is configured to receive a non-circular, peripheral profile of a drive flange (13) therethrough such that the rotor (17) is configured to piggyback on the drive flange (13). The lock (10) includes a locking member (21) which is configured selectively to engage the rotor (17) in order to lock the rotor in position and prevent angular displacement thereof. Amongst other steps, the method (50) includes aligning the aperture (20) of the rotor with the profile of the drive flange, passing the rotor over the drive flange, rotating the rotor relative to the drive flange, and securing the rotor to the drive flange for rotation together with the drive flange, piggyback-style.

Abstract: A remotely activated vehicle anti-theft device 10 and system 50 for preventing vehicle theft is provided. The device 10 is moved between unlocked, locked and priority locked states using either a wireless vehicle remote 51 or a mobile phone 52. The mobile phone 52 enjoys priority over the remote control 51 and overrides it when the device is in its priority locked state. It includes a pivotal locking member 17 which is movable between an open position (unlocked state) in which the member is spaced away from a gear 12, permitting it to rotate freely, and a locked position (locked and priority locked states), in which the member 17 engages the gear 12 and prevents rotation thereof, thereby immobilising a vehicle. The device 10 includes an ECU 22, wireless communication module 34, actuator 23, GPS 6 and speed sensor 7 housed in a tamper-proof casing 27.

Abstract: An anti-theft device 10 is operatively connected to a vehicle drivetrain, downstream of a power plant. To this end, a gear 12 is mounted for rotation together with a driveshaft 13. The device 10 further includes a pivotally mounted locking pawl 17 which is movable relative to the gear 12 between an open position in which a profiled head 18 of the pawl 17 is spaced away from a periphery of the gear 12 such that the gear 12 is permitted to rotate freely together with the driveshaft 13, and a locked position, in which the profiled head 18 of the pawl 17 engages the gear 12 and prevents rotation thereof, thereby locking the driveshaft 13 in position. The device includes an actuator 23 and ECU 22 in a tamper-proof casing 27. The ECU controls engagement of the pawl depending upon a position of a handbrake and ignition switch.

Abstract: A vehicle alarm system 10 includes a control unit 12, a number of door contacts or switches 13, 14, 15 connected as inputs to the control unit 12, the switches including a spare wheel sensor 14 and a battery sensor 15, and a spare wheel locking mechanism 16 connected to the control unit 12 as an output amongst others. The locking mechanism 16 has an actuator in the form of an electric motor 36 which is configured slideably to displace a locking pin 37 between an open position and a closed position in which the pin 37 engages a spare wheel hoist 26 of the vehicle hence preventing unauthorized lowering/removal of the spare wheel. If the alarm is armed, the sensor 14 will detect when an attempt is made to loosen the wheel and in response thereto a siren 19 will be sounded and the locking mechanism 16 locked.

Abstract: A vehicle alarm system 10 includes a control unit 12, a number of door contacts or switches 13, 14, 15 connected as inputs to the control unit 12, the switches including a spare wheel sensor 14 and a battery sensor 15, and a spare wheel locking mechanism 16 connected to the control unit 12 as an output amongst others. The locking mechanism 16 has an actuator in the form of an electric motor 36 which is configured slideably to displace a locking pin 37 between an open position and a closed position in which the pin 37 engages a spare wheel hoist 26 of the vehicle hence preventing unauthorised lowering/removal of the spare wheel. If the alarm is armed, the sensor 14 will detect when an attempt is made to loosen the wheel and in response thereto a siren 19 will be sounded and the locking mechanism 16 locked.