A method of operating an entry system of a motor vehicle includes monitoring a battery voltage and the entry system continuously using a control circuit of the latch assembly in a non-emergency mode. Power is provided to the control circuit in the event of a loss of power from a main power source using a backup energy source of the control circuit. The method includes transitioning to an emergency mode in response to determining loss of power from the main power source or failure of the component of the entry system. An actuation group associated with the latch assembly is operated with the control circuit using power from the backup energy source of the control circuit in response to determining that actuation from a plurality of pins of a mechanical emergency switch assembly indicates a command from a user to unlatch the closure member in the emergency mode.

A motor vehicle door lock, such as a motor vehicle bonnet lock includes a locking mechanism which substantially consists of a rotary latch and a pawl. The locking mechanism interacts with a striker element on a bonnet. The lock further has an unlocking/opening mechanism for the bonnet, which mechanism is equipped with a release element provided in the interior of a motor vehicle body. The release element is operated twice to open the bonnet. The locking mechanism is transferred to a pre-latched position after the release element has been operated at least once, with the striker element still being trapped. The bonnet is opened from the pre-latched position by lifting the pawl off the rotary latch with the aid of a power mechanism, said lifting being activated separately.

A motor vehicle door lock, such as a motor vehicle bonnet lock includes a locking mechanism which substantially consists of a rotary latch and a pawl. The locking mechanism interacts with a striker element on a bonnet. The lock further has an unlocking/opening mechanism for the bonnet, which mechanism is equipped with a release element provided in the interior of a motor vehicle body. The release element is operated twice to open the bonnet. The locking mechanism is transferred to a pre-latched position after the release element has been operated at least once, with the striker element still being trapped. The bonnet is opened from the pre-latched position by lifting the pawl off the rotary latch with the aid of a power mechanism, said lifting being activated separately.

A vehicle door latch device includes: a latch body including: a latch secured by a latch shaft on a rear surface side of the latch body, the latch being configured to engage with a striker; a ratchet secured by a ratchet shaft on the rear surface side of the latch body, the ratchet being configured to engage with the latch; and a striker advancing path into which the striker advances relatively; a motor configured to release the ratchet from the latch; and an actuator case provided continuously on top of the latch body, the actuator case being configured to accommodate the motor.

A vehicle door latch device includes: a latch body including: a latch secured by a latch shaft on a rear surface side of the latch body, the latch being configured to engage with a striker; a ratchet secured by a ratchet shaft on the rear surface side of the latch body, the ratchet being configured to engage with the latch; and a striker advancing path into which the striker advances relatively; a motor configured to release the ratchet from the latch; and an actuator case provided continuously on top of the latch body, the actuator case being configured to accommodate the motor.

An electric door latch apparatus includes a catch part for unlocking a door to a vehicle body by being caught by a striker mounted on the vehicle body or selectively unlocking the door from the vehicle body by being separated from the striker, a door locking/unlocking part for unlocking or locking the catch part to the striker by applying a rotational force of a main motor to the catch part, a master lock link for selectively rotating the catch part, a key lever for selectively restricting a rotation of the master lock link, an inside emergency operating lever rotatable by an inside handle for selectively rotating the master lock link, a manual emergency door unlocking part movable by a rotation of the inside emergency operating lever for selectively providing an elastic force to the key lever, and an electric emergency door unlocking part for selectively moving the key lever.

An electric door latch apparatus includes a catch part for unlocking a door to a vehicle body by being caught by a striker mounted on the vehicle body or selectively unlocking the door from the vehicle body by being separated from the striker, a door locking/unlocking part for unlocking or locking the catch part to the striker by applying a rotational force of a main motor to the catch part, a master lock link for selectively rotating the catch part, a key lever for selectively restricting a rotation of the master lock link, an inside emergency operating lever rotatable by an inside handle for selectively rotating the master lock link, a manual emergency door unlocking part movable by a rotation of the inside emergency operating lever for selectively providing an elastic force to the key lever, and an electric emergency door unlocking part for selectively moving the key lever.

An uplock for use with an aircraft landing gear is disclosed having a hook configured to engage a capture pin mounted on the landing gear. The hook is mounted for movement between a closed and locked position and an open and unlocked position. A proximity detector directly detects whether the pin is “up”. An uplock hook sensor detects when the hook is in the closed and locked position. The outputs of the proximity detector and the uplock hook sensor may be used to indicate the “up and locked” condition, i.e., landing gear up, and/or to indicate a fault. Such outputs may be provided by an associated device of an avionics system.

A latching assembly providing two options or systems for electric release output and timing, while keeping the two systems as common with one another as possible. A vehicle latching assembly, including: a housing; a release lever pivotally mounted to the housing; a first gear train for actuating the release lever, the first gear train includes a first worm and a first release gear the first worm meshingly engages the first release gear; and a second gear train for actuating the release lever, the second gear train being interchangeable with the first gear train, the second gear train includes a second worm and a second release gear the second worm meshingly engages the second release gear, wherein the second gear train applies a greater amount of force to the release lever than the first gear train.

A motor vehicle lock, in particular an electrically actuatable motor vehicle lock, comprising a locking mechanism having a rotary latch and at least one pawl, a release lever, wherein the release lever can be actuated by means of an electric drive unit and at least one manually actuatable actuating lever, and wherein the release lever interacts with the locking mechanism in such a way that a blocked locking mechanism can be unblocked, and a locking unit, wherein manual unblocking of the locking mechanism can be prevented by means of the locking unit, and wherein simultaneous locking of the actuating lever and unblocking of the locking mechanism can be made possible by means of the drive unit.