The invention of the present disclosure may be a pressure sensitive locking mechanism comprising a body comprising a flex portion and an anchor portion. The locking mechanism may further comprise a tab disposed on a guard, where the tab may be orthogonal to the guard. In an embodiment, locking mechanism is configurable in a locked state and an unlocked state, where the tab may be configured to receive a pressure, where application of the pressure may be configured to convert the lock from the locked state to the unlocked state, and withdrawal of the pressure may be configured to convert the lock from the unlocked state to the locked state. The locking mechanism may be integrated with a slidable container, enabling reversible locking.

A striker assembly includes a housing, a striker, and a spring. The housing has opposed sidewalls, each of which defines an aperture. The striker extends between the sidewalls of the housing with end portions of the striker positioned within respective apertures defined in the sidewalls. Each of the pair of end portions defines a surface extending in a transverse direction. The spring has a pair of end portions. Each spring end portion contacts the surface of a respective striker end portion. The spring is engaged with the housing to bias the end portions of the striker toward a centered position of the respective apertures. At least one of the end portions of the striker is movable transversely within the respective aperture away from the centered position of the respective aperture and is biased toward the centered position of the respective aperture.

The parts forming the force transmission connection from the spindle shaft of the handle of the lock body to the bolt include a spring, which is also arranged to transfer force. The spring is used to eliminate the protrusion of the bolt caused by tolerance variations, when the handle installed into the lock body is turned to its extreme position to open the door.

A lock and strike assembly is disclosed which is coupled to a latch assembly for a sliding door. The latch assembly includes a movable tongue or latch bar with two oppositely disposed catches. The lock assembly includes a housing, a solenoid housing having a solenoid coupled to a d.c. power source and controlling electronics. The solenoid is coupled to a trapezoidal shaped dog which is pivotally coupled to the solenoid housing for reciprocal movement between an engaged position and a disengaged position. The strike assembly is mounted to the lock assembly for locking engagement with the catch of the latch assembly.

A vehicle glove box latch includes a housing, a paddle pivotably connected to the housing, a rotor pivotably connected to the housing, a pawl coupled to the rotor and having an end that is engaged with an opening in the vehicle, and a lock barrel mounted to the housing for locking and unlocking the vehicle glove box latch. In a locked state of the lock barrel, the pawl cannot be disengaged from the opening in the vehicle. In an unlocked state of the lock barrel, the pawl can be disengaged from the opening for opening the vehicle glove box. The lock barrel, the rotor and the rotor mounting portion are concentrically aligned along an axis, which reduces the depth of the latch, which reduces the space in the glove box necessary for accommodating the latch, thereby resulting in an increase in the available storage space in the glove box.

An actuator mechanism of a vehicle latch assembly includes an electric motor having an output shaft. Also included is a worm coupled to the output shaft. Further included is a worm gear driven by the worm. Yet further included is a spring operatively coupled to the worm gear and to a latch housing, the spring having a first leg extending through an aperture defined by the worm gear and a second leg extending into a receiving hole defined by the housing, the first leg including a first segment extending along a first leg axis and a second segment oriented at a non-parallel angle to the first leg axis, the second segment contacting a face of the worm gear to prevent removal of the spring.

A vehicle glove box latch includes a housing, a paddle pivotably connected to the housing, a rotor pivotably connected to the housing, a pawl coupled to the rotor and having an end that is engaged with an opening in the vehicle, and a lock barrel mounted to the housing for locking and unlocking the vehicle glove box latch. In a locked state of the lock barrel, the pawl cannot be disengaged from the opening in the vehicle. In an unlocked state of the lock barrel, the pawl can be disengaged from the opening for opening the vehicle glove box. The lock barrel, the rotor and the rotor mounting portion are concentrically aligned along an axis, which reduces the depth of the latch, which reduces the space in the glove box necessary for accommodating the latch, thereby resulting in an increase in the available storage space in the glove box.

A vehicle hood lock device includes a base including a groove for entry of a striker, a latch that pivots between a restraining position and a release position, a locking lever engaging the latch, a torsion spring causing the latch to pivot in a direction toward the release position, and a sub-plate fixed to the base by a latch pin supporting the latch and a locking pin supporting the locking lever. The torsion spring includes a cylindrical portion. The sub-plate integrally includes a basal portion, a circumferential wall portion rising up from the basal portion in a pivot axis direction of the latch, facing the cylindrical portion in a radial direction thereof and restricting movement of the torsion spring in the radial direction, and a brim portion protruding outward in the radial direction from the circumferential wall portion and restricting movement of the torsion spring in the pivot axis direction.

A door latch assembly includes a housing, an inside and outside handle operably coupled with the housing, and a latch plunger. A latch cam is operably coupled with the inside and outside handles, and the latch cam further includes a crank arm slidably disposed against an inclined surface of a plunger leg operably coupled to the latch plunger. A biasing member urges the latch plunger to an extended position, wherein rotation of the inside or outside door latch handle in a first direction rotates the crank arm of the latch cam and displaces the plunger leg of the latch plunger and the latch plunger to a retracted position against the urging of the biasing member.

A lock with an integrated visual indicator of its engagement is provided. Such lock comprises a resiliently extensible pin and an engagement means on a first plate and a means for securing the pin on a second plate. When an external force is applied to the engagement means, the pin and the means for securing the pin may engage one another and, as a result, secure the first and second plate to one another. The lock may be disposed on a container to prevent physical access to certain objects when engaged in this manner. The visual indicator may be provided to ensure compliance with any requirement that the lock be engaged to secure the first and second plate. A tampering indicator may also be disposed between the plates to visually confirm whether the lock has been tampered with when the plates are secured to one another.