An inertial blocking member subassembly of a handle assembly for a vehicle door includes a blocking member pivotally rotatable about an axis of rotation, and the blocking member has a center of gravity offset from the axis of rotation. The blocking member is responsive to an acceleration force acting thereon to rotate about the axis of rotation from an at rest position in which the blocking member does not prevent unlatching of the vehicle door, to an engagement position in which the blocking member prevents unlatching of the vehicle door. In the engagement position, the center of mass is positioned between the axis of rotation and a vector of the acceleration force acting in a direction toward the center of mass and the axis of rotation, and the center of mass, the axis of rotation and the vector of the acceleration force are approximately in line with one another.

The invention relates to an actuation device for a flap mounted moveably on a component between a closed position and an opened position, in particular for a flap mounted moveably on a housing of an automobile, comprising: a first actuation part and a second actuation part, wherein the first actuation part is to be fastened on the flap and is moved together with the flap when the flap is moved between the closed position and the opened position, and wherein the second actuation part is to be fastened on the component, locking means with a locking reception provided on the first or second actuation part and a locking element provided on the other of first or second actuation part, wherein the locking element engages in the locking reception upon a movement of the first actuation part with the flap from its opened position into its closed position, whereby the locking element holds the first actuation part against a spring pretension in a locking position on the second actuation part, and a remote unlocking device, wherein the remote unlocking device comprises drive means, which can be actuated from a place distant from the actuation parts such that the locking element is retracted from the locking reception, whereby the first actuation part, driven by the spring pretension, disengages from the second actuation part and moves together with the flap at least partially into its opened position.

A breathing assistance apparatus has a lid and latch assembly configured for one-handed operation. The apparatus also includes a hinge assembly that separates when over-rotated but that reengages upon closing of the lid onto the main body of the apparatus.

A door handle arrangement for a vehicle, includes a housing and a handle lever which is mounted on the housing such that it can be moved between a rest position and an actuating position for unlocking and/or opening a vehicle door, it being possible for the housing to be oriented on a vehicle body outer part which forms a part of the outer surface of a vehicle body and has a handle cut-out for the handle lever, first positioning projections being provided on the housing, which first positioning projections are configured to bear against an angled-over edge of the vehicle body outer part, which angled-over edge delimits the handle cut-out of the vehicle body outer part at least in regions, and, as a result, to position the handle lever with the housing in at least one spatial direction in relation to the handle cut-out.

A lock device 1 includes a latch 10 that locks a striker 2, a ratchet 11 that is brought into engagement with the latch 10 to prevent the movement of the latch 10, a lever 12 that moves the ratchet 11 to a releasing position where the ratchet 11 releases the latch 10, an actuator 13 that includes a motor 23 that operates the lever 12, a base 14 that supports the latch 10, the ratchet 11, the lever 12 and the actuator 13, and a case 15 that is fixed to the base 14 and accommodates at least the actuator 13 between the base 14 and the case 15, and an attaching portion 44, to which an operating member 16 that is connected to the lever 12 so as to enable the lever 12 to be operated manually is attachable, is provided integrally on the case 15.

A lock assembly comprising: a hand-operable member configured to move laterally relative to a fore-end of the lock assembly; wherein lateral movement of the hand-operable member causes the lock assembly to move between a locked mode and an unlocked mode. A lock assembly comprising: a latch, the latch configured to move rotationally relative to the lock assembly; and a hand-operable member configured to move laterally relative to a fore-end of the lock assembly; wherein the hand-operable member is coupled to the latch such that lateral movement of the hand-operable member drives rotational movement of the latch. Methods of installing a lock assembly, comprising setting a hub of a lock assembly to one of a first unlocked position, a first locked position, a second unlocked position, a second locked position, or a deadlocked position, and installing a cylinder lock for engagement with the hub.

A method for extending and retracting a handle of a door handle assembly for a door of a vehicle includes providing a door handle assembly having a base portion, a handle portion that is movably attached at the base portion, and an electrically operable actuator that operates to move the handle portion relative to the base portion. A control controls operation of the actuator to move the handle portion between a recessed position and a partially extended position. Responsive to detecting presence of an authorized user, a sensing system determines a motion vector of the user that is indicative of a direction that the user is moving relative to the vehicle. Responsive to determining that the determined motion vector is indicative of the user approaching the door of the vehicle, the control controls operation of the actuator to move the handle portion to the partially extended position.

The opening control device includes a fixed support configured to be mounted on the door leaf, a handle movably mounted on the support, a mechanism for electrical and mechanical activation of an unlocking of a latch of the motor vehicle door leaf respectively for electrically and mechanically actuating the unlocking of the latch, the mechanism being mechanically coupled with the handle of the vehicle such that the application of a predefined pulling force on the handle causes the electrical or mechanical activation of the unlocking of the latch. The activation mechanism includes a first lever for electrical activation of the latch and a second lever for mechanical activation of the latch movably mounted relative to each other.

A retractable handle arrangement includes a handle movable between stowed and deployed states, a motor and transmission mechanism arranged to couple the motor to the handle for moving the handle from the stowed state to the deployed state when the motor is driven in a first direction, and to modulate the force exerted on the handle and the speed at which the handle is deployed as the handle travels from the stowed state to the deployed state.

A piezoelectric energy harvester system for collecting kinetic energy is provided, wherein the kinetic energy is converted into electrical energy, and wherein at least a portion of the converted electrical energy is utilized to operate a load. The system comprises an energy input portion and an energy harvesting portion. The energy input portion includes an input member configured to be actionable by an outside force. The energy harvesting portion includes a capture member, a sprocket portion, and a piezoelectric energy harvester. The capture member is adapted for receiving mechanical input from the input member. The sprocket portion is disposed for movement with the capture member. The sprocket portion includes at least one radially disposed sprocket actuator configured for making contact with and exciting the piezoelectric energy harvester. The piezoelectric energy harvester is excited by the contact to produce the kinetic energy.