A vehicle lock assembly key hole cover having a flat or ovoid surface with an annular shoulder extending axially from the surface. The annular shoulder is formed with one of several features including a taper in cross-section, geometrically-shaped slots and elastomeric inserts to impart flexibility to the shoulder. An elastomeric sealing ring may be secured to an inner surface of the shoulder to create a seal and increase adhesion to a lock assembly. An adhesive patch may be used to enhance adhesion to a lock assembly.

Push button device for a motor vehicle, has: a mechanical and/or electric function controller with a first control state and a second control state; a push button element pressable from a disengaged state into a pressed state, wherein the function controller has the first control state when the push button element is in the disengaged state and the second control state when the push button element is in the pressed state, the push button element connected to the function controller by a first pivot arm mounted rotatably about a first axis of rotation and by a second pivot arm mounted rotatably about a different axis of rotation spaced apart from the first axis of rotation, wherein the first pivot arm and the second pivot arm are designed to be pivoted in an identical direction of rotation as a consequence of a movement of the push button element.

A compression latch assembly for latching a panel to a frame includes a housing assembly, a lockplug assembly, a handle actuator assembly, and a rotating pawl assembly. The housing assembly defines an exterior well and a first and second compartment. The lockplug assembly resides within the first compartment and includes a lockplug having a circumferential guide surface. The handle actuator assembly has a handle within the exterior well, a crank coupled to the handle, and a drive shaft coupled to the crank. The handle and the crank rotate about common pivot point within the second compartment. The handle is selectively captured and ejected by interaction between the circumferential guide surface and a locking pin on the handle. The rotating pawl assembly has a hook defining a slot that receives the drive shaft. Pivotal movement of the handle actuates the hook by movement of the drive shaft within the slot.

An electrically or manually actuated locking device comprising a magnetic reed switch as a sensor to monitor whether or not the device is locked. The reed switch is mounted on a circuit board to make a sub-assembly and the sub-assembly is coated with a plastic or other synthetic material which is impermeable to water and/or oil and which provides a degree of mechanical protection from breakage. The coated sub-assembly is then mounted within a housing incorporating the locking device. A pivotable magnet carrier which pivots when the bolt of the locking device is engaged causes the reed switch to be actuated.

A door bolt structure of an electronic device includes a door frame, a door panel, and a resilient metallic wire. The door panel is movably disposed at the door frame and provides a hermetic seal to the door frame. The two ends of the resilient metallic wire are connected to the door panel. The resilient metallic wire bends to form hook portions which protrude from the edge of the door panel. When the door panel provides a hermetic seal for the door frame, the hook portions are engaged with an inner edge of the door frame. When pulled, the resilient metallic wire drives the hook portions to separate from the door frame, thereby allowing the door panel to move relative to the door frame.

Actuating handle (100) for a motor vehicle for opening and/or closing a door or a flap, comprising a grip element (101) which is designed for movement between an actuating position, in which the grip element (101) is arranged that can be actuated for manually opening a door or a flap (103), and a locking position, in which the grip element (101) is accommodated in a recess (105), wherein the grip element (101) comprises surrounding grip element delimiting sections (107) and the recess (105) has recess delimiting sections (109), wherein the actuating handle (100) is designed such that in the locking position of the grip element (101) each of the grip element delimiting sections (107) is arranged opposite a corresponding recess delimiting section (109), and wherein lighting means (201) are arranged at least in some regions on the grip element delimiting sections (107).

A weather resistant pin lock with an elongated body, defining a longitudinal axis includes a shell housing a rotatable core having a keyway. An elevated pinway projects upwardly from the shell to define a linear array of pin slots containing a set of lock pins. A hood is fastened to the pinway to hold the lock pins in the pin slots and to provide a water resistant barrier. A drainway provides a channel for water to flow outwardly from the interior of the shell, the rotatable core and the keyway within the core, to a drain below the pin lock. At the proximate end, an access door rotates adjacent the keyway at an elevated position, to provide a gap along the bottom edge of the access door.

An electronic lock with a latch assembly, an interior assembly and an exterior assembly. The latch assembly includes a bolt movable between an extended position and a retracted position. The interior assembly is configured to move the bolt between the extended position and the retracted position. The exterior assembly includes a touch keypad subassembly configured to detect touches to at least a portion of its surface. The touch keypad subassembly defines an opening through which a wiring harness extends. The opening in the touch keypad subassembly is sealed, at least in part, by an epoxy resin and/or internal structure of the touch keypad subassembly.

An appliance lid lock mechanism provides a lock pin that may be extended into or withdrawn out of a lock cavity that receives a strike attached to the appliance lid interacting with the lock pin when the lid is closed. The lock pin communicates with the electric actuator on the opposite side of the lock pin from the lock pin's entry into the lock cavity by means of sidebars passing to the side of the lock cavity. The lock bar and sidebars are substantially coplanar with an actuation axis to prevent passage of liquid along these elements between the lock pin and the actuator.

An insulated door lock assembly including a base member with an aperture for the cylinder of a lock. The base member is configured to be mounted to a door around a hole for the door lock. The inner volume of the base member can be filled with an insulating material. A cover member can be coupled to the base member through a hinge joint. The cover member can be configured to switch between an open state and a closed state. A keyway or a thumb turn of the door lock can be accessible in the open state and the keyway or the thumb turn is covered by the cover member in the closed state. An O-ring can also be provided around a periphery of the base member for sealably engaging the cover member to the base member.