A container assembly is provided with a container and a lid, with the lid cooperating with the container to enclose the interior of the container. A magnetic member is supported by the lid or the container for transverse movement between a first position and a second position. When the lid is cooperatively associated with the container, the magnetic member is in the first position and inhibits movement of the lid along a longitudinal axis of the container to lock the container. With the magnetic member in the second position, the lid is moveable along the longitudinal axis to open the container.

Disclosed is an automatic released foldable door having a two-way door structure, which foldable door comprises a first closing door device (11) and a second closing door device (13), wherein a first door leaf (2) is connected to one side of the first closing door device (11), the second closing door device has one side connected to the first door leaf (2) and the other side thereof connected to a second door leaf (6), the second door leaf (6) is a door-in-door and a two-way door structure; and the foldable door further comprises a plurality of fixing devices (3, 31, 7) and at least one hinge (4). The foldable door has a relatively small turning radius and can be folded for receiving, and the door-in-door can be rotated in different directions.

A chassis device and its cover structure and lifting mechanism, the chassis structure includes a chassis, a cover and a lifting mechanism further including a first magnetic member fixed to the cover, a second magnetic member fixed to the chassis; a movable sleeve sheathed on the second magnetic member and capable of sliding with respect to the second magnetic member, an elastic element installed between the chassis and the movable sleeve and pushing the movable sleeve away from the chassis to resume its original position, and a third magnetic member fixed to the movable sleeve, and the third magnetic member has a side attracted or repelled with respect to the first magnetic member and the other side attracted or repelled with respect to the second magnetic member. The second and third magnetic members have a magnetic attraction force greater than an elastic restoring force of the elastic element.

The invention discloses a magnetic lock, comprising a lock body mechanism and a stopper, wherein the lock body mechanism comprising a housing, a swinging fastener, an inner cover, a latch for engaging with the stopper, and a magnetic unlocking member for controlling disengagement of the latch from the stopper; the swinging fastener is hinged to the inner cover, the inner cover is snapped with the housing, the latch is slidably arranged inside the housing, the swinging fastener comprises a push rod abutting against the latch, and the magnetic unlocking member is used to form a repulsive force applied to the swinging fastener to drive the latch away from the stopper. Unlocking the latch may only be achieved by means of magnetic unlocking member which is independent from the lock body mechanism so as to prevent children from opening this magnetic lock arbitrarily and which is also convenient to use.

The invention discloses a magnetic lock, comprising a lock body mechanism and a stopper, wherein the lock body mechanism comprising a housing, a swinging fastener, an inner cover, a latch for engaging with the stopper, and a magnetic unlocking member for controlling disengagement of the latch from the stopper; the swinging fastener is hinged to the inner cover, the inner cover is snapped with the housing, the latch is slidably arranged inside the housing, the swinging fastener comprises a push rod abutting against the latch, and the magnetic unlocking member is used to form a repulsive force applied to the swinging fastener to drive the latch away from the stopper. Unlocking the latch may only be achieved by means of magnetic unlocking member which is independent from the lock body mechanism so as to prevent children from opening this magnetic lock arbitrarily and which is also convenient to use.

A magnetic latch (10) for an appliance is disclosed for use with a strike plate (12). The latch includes a body (16) having two oppositely disposed side walls (18) and a bottom surface or wall (20). The body defines a magnet recess (26). An elongated handle (40) is pivotally coupled to the body. A spring loaded plunger pin (34) biases the handle. A magnet assembly (44) is positioned within the body. The magnet assembly includes a magnet (46) having a peripheral edge (48), and a pair of metal plates (54). The magnet has a peripheral cushioning sleeve (58) extending about the peripheral edges of the magnet. The peripheral sleeve is generally rectangular in shape having two oppositely disposed end walls (60) which include a cushioning projection (68). A pivot pin (74) extends through the magnet assembly to allow rocking motion.

A magnetic latch (10) for an appliance is disclosed for use with a strike plate (12). The latch includes a body (16) having two oppositely disposed side walls (18) and a bottom surface or wall (20). The body defines a magnet recess (26). An elongated handle (40) is pivotally coupled to the body. A spring loaded plunger pin (34) biases the handle. A magnet assembly (44) is positioned within the body. The magnet assembly includes a magnet (46) having a peripheral edge (48), and a pair of metal plates (54). The magnet has a peripheral cushioning sleeve (58) extending about the peripheral edges of the magnet. The peripheral sleeve is generally rectangular in shape having two oppositely disposed end walls (60) which include a cushioning projection (68). A pivot pin (74) extends through the magnet assembly to allow rocking motion.

A computing device is described. The computing device includes a first portion with a protrusion and a second portion separably connected to the first portion. The second portion has a receptacle. An undocking assist mechanism is configured to separate the first portion from the second portion when the protrusion is at least partially inserted into the receptacle. An actuator is configured to actuate the undocking assist mechanism. Methods of use are also described.

A container assembly is provided with a container and a lid, with the lid cooperating with the container to enclose the interior of the container. A magnetic member is supported by the lid or the container for transverse movement between a first position and a second position. When the lid is cooperatively associated with the container, the magnetic member is in the first position and inhibits movement of the lid along a longitudinal axis of the container to lock the container. With the magnetic member in the second position, the lid is moveable along the longitudinal axis to open the container.

A door position sensor of an electromagnetic door lock. The electromagnetic lock also includes an electromagnet and a strike plate. The electromagnet is secured to the door frame and the strike plate is movably mounted to the door so that a controlled amount of door movement in the opening direction is permitted while the strike plate remains in contact with an energized electromagnet. The door position sensor may comprise a sensor in or on the electromagnet and a permanent magnet mounted to the door and disposed in proximity to the sensor when the door is in a closed position. The sensor may be a reed switch or a Hall Effect sensor. The permanent magnet and strike plate may be mounted to the door by a mounting tray. The mounting tray may include indicia to aid in providing a proper alignment of the strike plate to the door and electromagnet.