A magnetically-triggered lock mechanism for interengaging two relatively movable components. The lock mechanism includes a bolt mounted within a first component composed of a first material and displaceable between retracted and extended positions to interengage with a second component when the first and second components are in a predetermined position relative to each other and the bolt is extended, and a magnetically-releasable latch mechanism positioned to latch the bolt in a retracted position, the latch mechanism including a first magnet and mounted for movement between a biased latch engaging position and a latch releasing position. A support collar composed of a second material having higher strength than that of the first material is disposed around the bolt between an inner casing and outer casing of the first component and is spaced from the bolt to allow for sliding movement of the bolt through the support collar as the bolt moves between the extended and retracted positions. The support collar absorbs and distributes to the inner and/or outer casing a load generated from the bolt as the bolt moves to the extended position through the support collar. A second magnet is positioned to displace the latch mechanism to the latch releasing position when the first component is in the predetermined position relative to the second component.

The present invention relates to a door-lock device (100) for locking and unlocking a door of a household appliance, such as a washing machine, a dishwasher and the like, comprising a first (110) and a second (120) electrical connecting terminal, a closing switch (130) series connected to said first connecting terminal (110) or to said second connection terminal (120), and arranged to close when the door of said household appliance is closed, an actuator (140), connected to said first (110) and second (120) connecting terminals, comprising at least one coil (141, 142), suitable to generate a magnetic field capable of causing the locking and unlocking of said door, and a Hall sensor (151) connected between said first (110) and said second (120) terminal, arranged in parallel with said actuator (140), said Hall sensor (151) being arranged so as to detect said magnetic field of said actuator (140).

The invention provides a digital lock (100, 1001, 1002) including at least two magnets. One magnet is a semi hard magnet (310) and the other magnet is a hard magnet (320). The hard magnet (320) is configured to open or close the digital lock (100, 1001, 1002). The semi hard magnet (310) and the hard magnet (320) are placed adjacent to each other. A change in magnetisation polarisation of the semi hard magnet (310) is configured to push or pull the hard magnet (320) to open or close the digital lock (100, 1001, 1002).

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.

An interchangeable pet door is disclosed. The interchangeable pet door comprises a door, a knob, a plurality of windows, a frame, and a hinge. The knob comprises a latch for securely closing the door. When the interchangeable pet door comprises a hinge, inserting the hinge into a hinge recess securely locks the door. The different elements of the interchangeable pet door are configured to be oriented in a predetermined, interchangeable, or customizable manner. The door is configured to open from, slide into, revolve within, or move in some other non-limiting equivalent way from or relative to a frame.

A magnetic lock assembly for a door includes a metal housing containing therein a magnet and a coil selectively energized to lock or unlock the door against an external armature plate. The magnetic lock further includes an audible alarm, a printed circuit board secured to an exterior surface of the metal housing and a cover made from a material that permits electromagnetic radiation to pass therethrough and positioned around the printed circuit board. The printed circuit board includes an electronic controller and a wireless communications interface configured to communicate wirelessly to a remote external system a signal indicating any one or more door conditions. These include propped door, delayed egress, forced door, insufficient bond, and door status indicating an open or closed status of the door.

A magnetic buckle device has a first base, a second base, a first component mounted to the first base, a second component mounted to the second base, and a lock mechanism. A magnetic attraction force is generated between the first component and the second component to move the first base and the second base toward each other. The lock mechanism is connected to the second base and has a locked status and an unlocked status. The lock mechanism has an engaging component and an unlocking component. In the locked status, the first base and the engaging component engage with each other such that the first base and the engaging component are inseparable. In the unlocked status, the unlocking component is capable of being operated to allow the first base and the engaging component to disengage from each other.

An embodiment vehicular door-opening-and-closing device includes a latch, a striker configured to be lockably fitted into the latch, and a magnet configured to maintain the striker in a state of being fitted into the latch. In an embodiment, the magnet has a magnetic force exceeding a repulsive force of a weather strip generated by compression of the weather strip, and the magnetic force exceeds the repulsive force in an initial operation of opening a vehicle door.

A door assembly for selectively interlocking opposing doors each pivotably mounted at a hinge side thereof to a door frame so as to both open and close in the same direction includes a door handle assembly mounted to one door at a latch side thereof opposite the hinge side and carrying a first plurality of magnets, and another door handle assembly mounted to the other door at a latch side thereof opposite the hinge side and carrying a second plurality of magnets. The door handle assemblies are arranged relative to each other with the first and second pluralities of magnets aligned such each aligned pair of the first and second pluralities of magnets have opposite magnetic polarities, and the aligned first and second pluralities of magnets magnetically couple to each other as the door handle assemblies are brought into contact with each other.

A lockout device for selectively blocking linear movement of a movable frame member relative to a fixed frame member includes a lock tab pivotably mountable to the fixed frame member and having a contact surface configured to slidably engage a slide surface of the movable frame member when the lock tab has a first orientation, the movable frame member including a stop surface at one end of the slide surface, a holder for releasably holding the lock tab in a second orientation with the contact surface spaced from the slide surface, and a body mountable to the movable frame member and configured such that movement of the movable frame member in a first direction causes the body pivot the lock tab into the second orientation and movement of the movable member in a second direction causes the body to pivot the lock tab into the first orientation.