A mounting and leveling system for an electronic image display device (10) formed of an array of multiple display sections (12) facilitates adjustment of the alignment of adjacent display sections to minimize visible seams between display sections. Some embodiments include one or more magnetically actuated fasteners (220) that facilitate front-access-only installation and adjustment without requiring access to the rear, top, bottom, or sides of the array. Tools (300, 410) for installation and removal of display modules (50) from a front side of the display device are also disclosed. Fasteners (220) for providing a hidden adjustable connection between first and second objects are also disclosed. One such fastener includes a screw (226) having a magnetic head (222) that presents a magnetic moment perpendicular to its axis of rotation (234).

A mounting and leveling system for an electronic image display device (10) formed of an array of multiple display sections (12) facilitates adjustment of the alignment of adjacent display sections to minimize visible seams between display sections. Some embodiments include one or more magnetically actuated fasteners (220) that facilitate front-access-only installation and adjustment without requiring access to the rear, top, bottom, or sides of the array. Tools (300, 410) for installation and removal of display modules (50) from a front side of the display device are also disclosed. Fasteners (220) for providing a hidden adjustable connection between first and second objects are also disclosed. One such fastener includes a screw (226) having a magnetic head (222) that presents a magnetic moment perpendicular to its axis of rotation (234).

The presently disclosed magnetic locking mechanism(s) for a computing device enclosure is directed at providing a fast, but tamper resistant solution for assembly and disassembly of a computing device having top and base enclosures that come together to form an overall enclosure for the computing device. Top and base enclosures that incorporate one or more of the presently disclosed magnetic locking mechanisms are capable of being quickly and easily attached and detached without damaging the computing device, so long as a correct magnetic key(s) are used. This aids both repairability and upgradability of the computing device during its life cycle, as well as recyclability at the end of its life cycle. Without the correct magnetic key(s), it is difficult to separate the enclosures without damaging one or both of the enclosures.

A magnetic lock system for an enclosure includes a receiver disposed within the enclosure and a locking mechanism coupled to an interior surface of the enclosure. The locking mechanism includes a mounting plate coupled to the interior surface of the enclosure, a latch rotatable around a pivot axis and configured to engage the receiver in a locked orientation, a tension device coupled to the latch and configured to exert a force on the latch to maintain it in the locked orientation. and a magnet coupled to the latch. The magnet is configured to interact with a magnetic key to overcome the force of the tension device and transition the latch to an unlocked position. The mounting plate and the latch are pivotably connected to each other via a pin associated with the pivot axis.

Locks for storage containers having closures such as doors, covers or lids are disclosed. The lock is mounted to she closure and is latched in such a manner as to selectively prevent opening or removal of the closure. The latch of the lock can engage a slot in the storage container, a bracket on the storage container, or a strike on the storage container. Alternatively, the latch can engage a mounting bracket on the door or other portion of the door to selectively block movement of a handle for the door. Further, the latch can have a locking device which can selectively block movement of the latch. Movement of the locking device can be selectively controlled by a magnetic key.

A magnetic unlocking device and a magnetic unlocking structure of a magnetic encoding key. The magnetic unlocking structure includes a lock core device and a magnetic unlocking device. The lock core device includes a lock core casing, a lock knob which is provided in the internal cavity of the lock core casing, a lock care front end cover and a lock core rear end cover that are located at both ends of the lock core casing. The internal wall of the lock core casing is provided with a monad longitudinal moving groove and a monad horizontal rotating groove. The lock knob is provided with an unlocking hole. The external wall of the lock knob is provided with a monad longitudinal slide-way. The monad longitudinal slide-way and the monad longitudinal moving groove correspond to each other and form a monad moving cavity.

A key device (10) includes a generally elongate shaft portion (12), and at least one magnetic key combination element (20) disposed in the shaft portion (12), which is rotatable about a rotation axis (22).

A method for unlocking and/or locking a privacy lockset from the exterior of the lockset or door and without the use of buttons, keys, or an object inserted into the lockset or door. The operator manipulates a magnetic object, such as a magnet or piece of ferrous metal, on the exterior of the door or lockset to cause an internal magnet attached to a rod to move the rod in and out of a collar, the far end of the rod in turn actuating the lock into a locked and/or unlocked position. Rotational, lateral, and/or thrust forces may be configured to actuate the lock. The invention may apply to rim locks, mortise locks, sliding door locks, cylinder locks, and non-keyed deadbolts.

A soap dispenser includes a structure in which an inner shell and an outer shell are slidably engaged together. An enclosed space is formed after the inner shell and the outer shell are engaged so as to accommodate and hold a refillable bottle or a disposable bag. The inner shell and the outer shell are fixed and locked with each other by a spring and a metal pin, and provided with engaging grooves on the back thereof so as to enhance the connection strength, and allow to be opened only by using a magnetic key. The soap dispenser solves the problems of poor anti-theft and tamper-proof effect, serious plastic waste, contamination caused by repeated filling, difficult maintenance, unattractive appearance, poor user experience, which are of great significance in enhancing the efficiency of the use of cleaning products in public occasions and the user experience.

A magnetic key comprising: a body; a segmented magnet housed within the body; and a ferrous element housed above the segmented magnet. A protective cap for a magnetic key comprising a body; and a ferrous element housed within the body. A locking system comprises a magnetic key and protective cap.