The disclosure relates to a magnetic-actuation latch device. The magnetic-actuation latch device includes a housing, a latch element, a sliding plate, an elastic component, a rotating element and a limitation element. A lateral opening of the housing spatially corresponds a first magnetic block mounted on a fixed component. When a second magnetic block of the latch element is aligned to the first magnetic block, an actuation force is generated to drive the latch element to pass through the lateral opening and engage with the fixed component. The elastic component is connected between the sliding plate and the housing. When the rotating element is rotated by an external force, the sliding plate is driven to misalign the second magnetic block from the first magnetic block, and the latch element does not pass through the lateral opening. The limitation element is pivotally connected to the housing for blocking the rotating element.

A gate latch apparatus is disclosed for a residential safety gate. The gate latch apparatus includes a housing having opposable buttons. The buttons are squeezed to unlock opposing slides. The slides are slid to in turn slide a latch out of a latch receiver to permit the residential safety gate to be opened.

A security device for a door in a doorway. The device includes a floor-carriable portion and a door-carriable portion magnetically co-operable with the floor-carriable portion to stop the door opening past a communication position at which the door is positioned to guard the doorway and ajar to enable the communication via the doorway. At least one of the floor-carriable portion and the door-carriable portion is reconfigurable to allow the door to open past the communication position.

A magnetic latch for fastening a closure member to a support. The magnetic latch comprises a keeper assembly including a magnet and a latch bolt assembly having: an elongated frame (32); a latch bolt (14) moveable between a latching position and a retracted position; a latch bolt biasing member urging the latch bolt into its retracted position; and a latch bolt operating mechanism configured to move the latch bolt from its latching position to its retracted position against a magnetic attraction. The latch bolt operating mechanism comprises: an effort link rod (37); a load link rod (34); and a second-order lever (35) interposed between the effort link rod and the load link rod. The second-order lever reduces the force required to operate the latch bolt operating mechanism thus allowing for an increased magnetic attraction of the latch bolt towards the magnet in the keeper assembly.

A latchbolt assembly includes a solid latchbolt having at least a first surface, a second surface and a third surface and an anti-friction bolt pivotally coupled to the solid latchbolt. The anti-friction bolt includes a cross member disposed adjacent the first surface of the solid latchbolt and a pair of plates depending from the cross member to form a U-shaped cross section. The plates are disposed adjacent the second and third surfaces of the solid latchbolt.

A gate is provided and includes a gate body, a hinge assembly attached to a first side of the gate body, and a support bracket. The hinge assembly includes a pin assembly and an actuating assembly capable of moving a pin of the pin assembly between a retracted position and an extended position. The support bracket engages the pin in the extended position and is disengaged from the pin in the retracted position. The gate body has an axis of rotation extending through the pin when the pin engages the support bracket and is freely movable with respect to the support bracket when the pin is disengaged from the support bracket.

A flush bolt assembly includes a latch bolt that has a head and a body. The body has an interior cavity that is defined by a plurality of walls. A guide slot is formed in a pair of sidewalls. The assembly also includes a sleeve that defines a through hole that is configured to receive a pin. A biasing member is disposed within the interior cavity, and it is configured to store energy upon being compressed between the sleeve and the latch bolt.

A vehicle interior component is disclosed. The component may comprise a base comprising a bin; a cover moveable from a closed to an open position through an unlatched position; and a mechanism moveable to an extended position to prevent the cover from opening when subjected to an inertial force. The mechanism may hold the cover in a blocked position partially uncovering the bin. The mechanism may be re-set by opening the cover. The mechanism may comprise a blocker to prevent the cover from moving from the unlatched position to the open position. The cover may comprise a cam surface configured to move the blocker to re-set the mechanism and allow the cover to open. The cover may comprise an interface/bottom surface accessible when the cover is blocked by the mechanism. The component may comprise a console; storage compartment; instrument panel; floor console; or center console.

A safety lock and access key for doors that otherwise need to remain locked comprising a lock body containing a spring biased catch extending from one end of the body to engage in a keep of the door frame, a lever for moving the catch into the body to unlock the door, and a tool for unlocking locked doors.

A vehicle interior component is disclosed. The component may comprise a base and a door/cover configured to move from a latched position to cover a bin to an open position to uncover the bin through an unlatched position; and a blocking mechanism configured to actuate a keeper/blocker to move in response to a force from a retracted position to an extended position to prevent the door/cover from moving toward the open position. The mechanism may comprise a blocker/keeper to move from a default/retracted position to a blocking/deployed position to prevent the door/cover from moving to the open position (e.g. in response to the external force). The mechanism may comprise an arm configured to rotate in response to the external force against a retaining spring to engage the blocker/keeper. The component may comprise a console; the cover may comprise a door.