A door lock assembly for a vehicle door includes a door panel, a stiffener bracket, a lock assembly, and a door pad. The door panel includes an inner door panel and an outer door panel. A stiffener bracket is connected to the inner door panel. A lock assembly is connected to the inner door panel. A door pad is connected to the stiffener bracket. The door pad is configured to interfere with the lock assembly to prevent the lock assembly from unlocking the vehicle door upon an object impacting the outer door panel.

A door lock assembly for a vehicle door includes a door panel, a stiffener bracket, a lock assembly, and a door pad. The door panel includes an inner door panel and an outer door panel. A stiffener bracket is connected to the inner door panel. A lock assembly is connected to the inner door panel. A door pad is connected to the stiffener bracket. The door pad is configured to interfere with the lock assembly to prevent the lock assembly from unlocking the vehicle door upon an object impacting the outer door panel.

A console apparatus for vehicles, includes a locking unit is additionally provided on a console box in a structure in which a console armrest is open and closed by the frictional force of a frictional hinge unit, wherein the locking unit is not operated in a normal state in which no traffic collision occurs, and thus the console armrest is smoothly open due to the frictional force of the frictional hinge unit, and the locking unit is operated to lock the console armrest at the time of a traffic collision, and thus the console armrest remains closed even at the time of the traffic collision.

A console apparatus for vehicles, includes a locking unit is additionally provided on a console box in a structure in which a console armrest is open and closed by the frictional force of a frictional hinge unit, wherein the locking unit is not operated in a normal state in which no traffic collision occurs, and thus the console armrest is smoothly open due to the frictional force of the frictional hinge unit, and the locking unit is operated to lock the console armrest at the time of a traffic collision, and thus the console armrest remains closed even at the time of the traffic collision.

A motor vehicle lock in a fitted state interacts with a striker. The motor vehicle lock includes an adjustable catch and an adjustable locking pawl. The catch is adjustable into a main locking state and into an opening state, and the locking pawl is adjustable into an entry state, and into a lifted state. The motor vehicle lock includes a tensioning mechanism. When the catch is in the main locking state and the locking pawl is in the entry state, the tensioning mechanism can be brought into a tensioned state in which the tensioning mechanism introduces a mechanical preload into the catch in its opening direction. The tensioning mechanism can be brought into a relaxed state, in which the preload originating from the tensioning mechanism is reduced or cancelled.

A motor vehicle lock in a fitted state interacts with a striker. The motor vehicle lock includes an adjustable catch and an adjustable locking pawl. The catch is adjustable into a main locking state and into an opening state, and the locking pawl is adjustable into an entry state, and into a lifted state. The motor vehicle lock includes a tensioning mechanism. When the catch is in the main locking state and the locking pawl is in the entry state, the tensioning mechanism can be brought into a tensioned state in which the tensioning mechanism introduces a mechanical preload into the catch in its opening direction. The tensioning mechanism can be brought into a relaxed state, in which the preload originating from the tensioning mechanism is reduced or cancelled.

A power unit for a powered cinching mechanism with a favorable level of operational noise is provided. A door latch apparatus includes latch unit and power unit. Latch unit has latch that engages striker, ratchet that engages latch and first cinching lever that displaces latch from a half-latched position to a full-latched position. Latch unit is attached to an end portion of a vehicle door. Power unit includes motor, cable drum, deceleration mechanism and closed-type housing that houses them. Operational noise at 300 mm right above the housing of power unit is 42.2 to 40.9 dB at a supply voltage to the motor of 9V, 47.5 to 43.9 dB at a supply voltage of 12V, and 49.7 to 46.5 dB at a supply voltage of 16 V. Deceleration mechanism includes a worm gear and a helical gear.

A power unit for a powered cinching mechanism with a favorable level of operational noise is provided. A door latch apparatus includes latch unit and power unit. Latch unit has latch that engages striker, ratchet that engages latch and first cinching lever that displaces latch from a half-latched position to a full-latched position. Latch unit is attached to an end portion of a vehicle door. Power unit includes motor, cable drum, deceleration mechanism and closed-type housing that houses them. Operational noise at 300 mm right above the housing of power unit is 42.2 to 40.9 dB at a supply voltage to the motor of 9V, 47.5 to 43.9 dB at a supply voltage of 12V, and 49.7 to 46.5 dB at a supply voltage of 16 V. Deceleration mechanism includes a worm gear and a helical gear.

An embodiment vehicular door-opening-and-closing device includes a latch, a striker configured to be lockably fitted into the latch, and a magnet configured to maintain the striker in a state of being fitted into the latch. In an embodiment, the magnet has a magnetic force exceeding a repulsive force of a weather strip generated by compression of the weather strip, and the magnetic force exceeds the repulsive force in an initial operation of opening a vehicle door.

A motor control system for a closure latch assembly is provided and includes a power release motor operatively coupled to a power release gear of the closure latch assembly. A plurality of relays are coupled between one of a first motor terminal and a second motor terminal and one of a voltage supply and an electrical ground to provide one of a first motor current flow to drive the power release motor in a first direction and a second motor current flow to drive the power release motor in a second direction. An electronic control unit is coupled to the plurality of relays and configured to command the plurality of relays to provide the first motor current flow in one of a power release mode and a release mode and the second motor current flow in one of a reset mode and an unlock mode.