A device includes an apparatus, including a fixed part attached to an activation part, and at least one detection device configured to activate at least one function of the apparatus upon detection of force applied to the activation part. Every detection device of the at least one detection device includes a blade and a sensor. The blade includes first and second bearing parts that bear against the activation part or the fixed part. The sensor is on the blade between the first and second bearing parts. The sensor measures deformation of the blade when the force is applied on the activation part and collects a deformation signal to be transmitted to a controller. At least one of the first bearing part and the second bearing part is secured to the activation part or to the fixed part by at least one overmolded securing portion.

A device includes an apparatus, including a fixed part attached to an activation part, and at least one detection device configured to activate at least one function of the apparatus upon detection of force applied to the activation part. Every detection device of the at least one detection device includes a blade and a sensor. The blade includes first and second bearing parts that bear against the activation part or the fixed part. The sensor is on the blade between the first and second bearing parts. The sensor measures deformation of the blade when the force is applied on the activation part and collects a deformation signal to be transmitted to a controller. At least one of the first bearing part and the second bearing part is secured to the activation part or to the fixed part by at least one overmolded securing portion.

A closure latch assembly includes a latch module having a ratchet and a pawl, with the ratchet being moveable between a striker capture position and a striker release position and the pawl being moveable between a ratchet holding position, whereat the ratchet is maintained in the striker capture position, the a ratchet release position, whereat the ratchet is biased toward the striker release position. An actuator module including a power actuator is operably coupled to a drive gear. The drive gear has an actuation feature fixed thereto. A latch release mechanism operably couples the actuation feature to the pawl, wherein rotation of the drive gear via energization of the power actuator causes the latch release mechanism to move the pawl between the ratchet holding position and the ratchet release position.

A pop-up hood apparatus includes a hood, a hood lock mechanism, an actuator for raising, and an auxiliary support section configured to support a side edge portion of the hood from below upon an actuation of the actuator. The auxiliary support section includes a load receiving block configured to support the side edge portion of the hood from below, a biasing member configured to bias the load receiving block upward, a displacement restricting member configured to restrict upward displacement of the load receiving block, and a restriction releasing section configured to release upward displacement restriction of the load receiving block according to upward displacement of the hood lock mechanism. The displacement restricting member is displaced to a position that abuts a lower surface of the load receiving block when the load receiving block that has been released upward displacement restriction is displaced upward by a predetermined amount or more.

A pop-up hood apparatus includes a hood, a hood lock mechanism, an actuator for raising, and an auxiliary support section configured to support a side edge portion of the hood from below upon an actuation of the actuator. The auxiliary support section includes a load receiving block configured to support the side edge portion of the hood from below, a biasing member configured to bias the load receiving block upward, a displacement restricting member configured to restrict upward displacement of the load receiving block, and a restriction releasing section configured to release upward displacement restriction of the load receiving block according to upward displacement of the hood lock mechanism. The displacement restricting member is displaced to a position that abuts a lower surface of the load receiving block when the load receiving block that has been released upward displacement restriction is displaced upward by a predetermined amount or more.

A motor vehicle door lock which is equipped with a locking mechanism substantially comprising a catch and pawl. Furthermore, a locking pin is provided for interaction with the locking mechanism. Furthermore, there is a damping element for a locking mechanism component and/or the locking pin. Finally, the configuration includes at least one spring which is assigned to the locking mechanism. According to the invention, the spring at least partially abuts the damping element.

A method of operating a motor vehicle locking system including an electric drive for providing a locking function, a central battery of the motor vehicle supplies electrical energy to the electric drive during normal operation, an auxiliary energy supply supplies electrical energy to the central battery and is arranged in a closure arrangement of the motor vehicle, the closure element is configured to assume an open and a closed position. Access to the auxiliary energy supply is blocked by the closure element in the closed position and cleared in the open position. The central battery is monitored by a control unit to check whether an emergency operation criterion is satisfied. The closure element is locked in the closed position by means of a lock unit, and when the emergency operation criterion is satisfied, the lock unit is actuated by the control unit to unlock the closure element.

A method of operating a motor vehicle locking system including an electric drive for providing a locking function, a central battery of the motor vehicle supplies electrical energy to the electric drive during normal operation, an auxiliary energy supply supplies electrical energy to the central battery and is arranged in a closure arrangement of the motor vehicle, the closure element is configured to assume an open and a closed position. Access to the auxiliary energy supply is blocked by the closure element in the closed position and cleared in the open position. The central battery is monitored by a control unit to check whether an emergency operation criterion is satisfied. The closure element is locked in the closed position by means of a lock unit, and when the emergency operation criterion is satisfied, the lock unit is actuated by the control unit to unlock the closure element.

A motor vehicle lock comprising a locking mechanism which essentially consists of a rotary latch and a pawl, further comprising a drive and a securing element. The drive acts on the securing element via a toothed rack element that is equipped with a blocking element. According to the invention, the blocking element is in the form of a tilting lever defining at least two end positions of the toothed rack element.

A motor vehicle lock comprising a locking mechanism which essentially consists of a rotary latch and a pawl, further comprising a drive and a securing element. The drive acts on the securing element via a toothed rack element that is equipped with a blocking element. According to the invention, the blocking element is in the form of a tilting lever defining at least two end positions of the toothed rack element.