Various disclosed embodiments include a lock assembly. The lock assembly includes a lock bolt. The lock bolt has a lock bolt body and having a bolt security engagement feature formed as part of the lock bolt body. The lock assembly also includes a receiver. The receiver has a receiving area for receiving at least a portion of the lock bolt and the receiver has a receiver security engagement feature formed as part of the receiver. The receiver security engagement feature is complementary to the lock bolt security engagement feature.

A locking device for locking a first component to a second component having a catch element for fastening to the first or second component, the catch element comprising a first latching recess; having a latching unit for fastening to the second or first component; the latching unit comprising a first latching body for engagement with the at least one latching recess of the catch element; the latching unit comprising a release element, which comprises a first receiving opening for receiving the first latching body; and the release element can be moved between a rest position, which arranges the first latching body in the first latching recess of the catch element and in the receiving opening of the release element, and a release position, which releases the engagement between the first latching body and the first latching recess of the catch element.

Various disclosed embodiments include a lock assembly. The lock assembly includes a lock bolt. The lock bolt has a lock bolt body and having a bolt security engagement feature formed as part of the lock bolt body. The lock assembly also includes a receiver. The receiver has a receiving area for receiving at least a portion of the lock bolt and the receiver has a receiver security engagement feature formed as part of the receiver. The receiver security engagement feature is complementary to the lock bolt security engagement feature.

An articulating hood pin assembly includes a double-ended ball stud, a receiver, a retention element holding the double-ended ball stud and a snap ring securing the retention element in the receiver. A hood latch assembly includes a latch mechanism and the articulating hood pin assembly.

A ball lock includes a body having a shaft with at least one retention feature disposed at a distal portion of the shaft. The body of the ball lock may also define a central chamber and an access slot open to the central chamber. The ball lock may include a spindle disposed within the central chamber of the body. The spindle may be in either a locked position or an unlocked position. The ball lock may further include an indicator coupled to the spindle and viewable to a user via the access slot, wherein the indicator is configured to indicate to the user whether the spindle is in the locked position or the unlocked position.

Provided herein is an improved a bi-stable actuator including a first core component coupleable to a housing, the first core component including a central bore containing a shaft and a shaft spring. The actuator may further include a second core component extending around the first core component, wherein the second core component and the first core component are axially moveable relative to one another, and a third core component extending within the second core component, wherein the third core component and the second core component are axially moveable relative to one another. The actuator may further include a positioning sphere extending through an opening of the first core component, wherein the positioning sphere abuts the second core component when the bi-stable actuator is in a first position, and wherein the positioning sphere abuts a detent of the shaft when the bi-stable actuator is in a second position.

A grill includes a base structure, a first platen assembly connected to the base structure, and a second platen assembly connected to the base structure. At least the second platen assembly is movable between a first position and a second position. A latch mechanism is operable to selectively retain the upper platen assembly in the second position. The latch mechanism includes a first portion and a second portion. The second portion further comprises a retaining ring movable to receive and cooperate with the first portion when the first portion and the second portion of the latch mechanism are misaligned.

A key storage device (1) has a tubular housing (8) having an open proximal end (14) and a distal end (15), and a sliding carriage (2) which is insertable into the proximal end (14) of the housing (8). The sliding carriage (2) has a compartment (4) for a key to be stored, and is displaceable between an open position in which a majority of the sliding carriage (2) is outside of the housing (8) and the compartment (4) is accessible for key retrieval, and a closed position in which the majority of the sliding carriage (2) is inside the housing (8) and the compartment (4) is inaccessible. A lock mechanism (12) is arranged within the tubular housing (8). It has a locked state in which the sliding carriage (2) is kept locked in its closed position and prevented from being displaced to its open position, and an unlocked state in which the sliding carriage (2) may be displaced to its open position. The lock mechanism (12) has a piston (5) and a catch member (7) which are both movable between respective first positions in the locked state of the lock mechanism (12) and respective second positions in the unlocked state of the lock mechanism (12). An electric motor (28) is coupled for causing movement of the piston (5) of the lock mechanism (12). A control unit (35) is adapted to cause the lock mechanism (12) to switch from its unlocked state to its locked state by actuating the motor (28) and thereby causing movement of the piston (5) from its second position to its first position, the movement of the piston (5) in turn causing movement of the catch member (7) from its second position to its first position. The control unit (35) is also adapted, based on an external input (29), to allow the lock mechanism (12) to switch from its locked state to its unlocked state by actuating the motor (28) and thereby causing movement of the piston (5) from its first position to its second position, the movement of the piston (5) in turn allowing movement of the catch member (7) from its first position to its second position.

A lock assembly includes a cylinder portion having an open end which receives a key. The assembly further includes a stem portion operatively connected to the cylinder portion and torsion spring operatively attached to the first and second lock portions, wherein the stem portion is capable of biased rotational movement independent of the cylinder portion. The lock assembly also includes at least one locking ball received atop the stem portion, the at least one locking ball being extendable and retractable from at least one slot in a housing of the lock assembly. A compression spring received about the stem portion biases the at least one locking ball towards a distal end of the stem. During installation into a lock receptacle, the locking ball is urged radially against the stem, causing the stem to rotate against the bias of the torsion spring, as well as urged axially rearward within the slot against the bias of the compression spring. In this position, the locking ball is positioned above a relieved area of the stem, permitting the locking ball to retract into the housing.

A key storage device (1) has a tubular housing (8) having an open proximal end (14) and a distal end (15), and a sliding carriage (2) which is insertable into the proximal end (14) of the housing (8). The sliding carriage (2) has a compartment (4) for a key to be stored, and is displaceable between an open position in which a majority of the sliding carriage (2) is outside of the housing (8) and the compartment (4) is accessible for key retrieval, and a closed position in which the majority of the sliding carriage (2) is inside the housing (8) and the compartment (4) is inaccessible. A lock mechanism (12) is arranged within the tubular housing (8). It has a locked state in which the sliding carriage (2) is kept locked in its closed position and prevented from being displaced to its open position, and an unlocked state in which the sliding carriage (2) may be displaced to its open position. The lock mechanism (12) has a piston (5) and a catch member (7) which are both movable between respective first positions in the locked state of the lock mechanism (12) and respective second positions in the unlocked state of the lock mechanism (12). An electric motor (28) is coupled for causing movement of the piston (5) of the lock mechanism (12). A control unit (35) is adapted to cause the lock mechanism (12) to switch from its unlocked state to its locked state by actuating the motor (28) and thereby causing movement of the piston (5) from its second position to its first position, the movement of the piston (5) in turn causing movement of the catch member (7) from its second position to its first position. The control unit (35) is also adapted, based on an external input (29), to allow the lock mechanism (12) to switch from its locked state to its unlocked state by actuating the motor (28) and thereby causing movement of the piston (5) from its first position to its second position, the movement of the piston (5) in turn allowing movement of the catch member (7) from its first position to its second position.