The present invention relates to a security locking system of the type comprising a cylinder (3) provided with a set of pistons (8) that are able to be positioned by elastic means on the impression formed in the edge (7b, 7c) of a control key (7) perpendicularly to the direction in which said key (7) is introduced into the cylinder (3), these pistons (8) being able to take up two positions, namely a position retracted into the cylinder (3) when the key (7) is introduced into the latter and an extended position when the key (7) is withdrawn there from. This system is characterized in that:—the cylinder is made up of a locking block (3) of parallelepipedal shape that is able to be received in a receiving block (5),—it comprises locking means which are activated when the locking block (3) is introduced into the receiving block (5).

A locking structure, for fastening together a first case and a second case, includes: a fastening portion disposed on the first case, a hook portion movable between a locking position and a release position, and a tension spring with one end disposed at the second case and the other end disposed at the hook portion. When the hook portion moves to the locking position under an applied force, the hook portion becomes fastened to the fastening portion. After the hook portion has separated from the fastening portion under an applied force, the tension spring exerts a restoring force under which the hook portion returns to the release position. After the hook portion has separated from the fastening portion under the applied force, the tension spring pulls the hook portion back to the release position without a user's manipulation.

A method of controlling opening resistance in an electronic device includes maintaining the electronic device in a closed state via a resistive force, wherein the resistive force is applied by at least one of: a hinge of the electronic device, and magnets of the electronic device. The method further includes using a sensor on an underside of the electronic device to detect a force applied to a first portion of the electronic device and determining that the force corresponds to a user initiating opening of the electronic device. In accordance with the determination, the method further includes reducing the resistive force to assist the user in opening the electronic device.

An information handling system, including a chassis; a bottom door coupled to the chassis; an assembly, including a bracket coupled to the chassis, the bracket including an opening; a slider moveably coupled within the bracket, the slider including a cavity at least partially in superimposition with the opening; a nut positioned within the cavity, the nut including a threaded opening; and a fastener positioned through an opening of the bottom door and within the threaded opening of the nut to position the bottom door such that the bottom door abuts the chassis, wherein when the slider is in a first positional state with respect to the bracket, the nut is constrained within the cavity, wherein when the slider is in a second positional state with respect to the bracket, the nut is rotatable within the cavity.

One or more computer processors detect a computing device within a proximity to a rollable device. The one or more computer processors determine a location and an orientation of the rollable device relative to the computing device. The one or more computer processors attach the rollable device to the computing device utilizing the set of biometric locks engaged programmatically such that at least one side of the rollable device is locked and hinged to the computing device. The one or more computer processors responsive to the rollable device attached to a side of the computing device, extend a display area of the computing device to the rollable device.

An electronic device and method are disclosed. The electronic device includes a housing defining an opening, a driving actuator, a slide door moveable to selectively cover and expose the opening, a link connecting the slide door and the driving actuator, the link linearly moveable in accordance with a driving operation of the driving actuator to move the slide door, a forcible open blocker that is moveable to restrict opening of the slide door when the opening is closed, and to release blockage of the opening of the slide door based on a linear movement of the link, and a processor. The processor implements the method, including: receiving an external input signal and identify whether to expose or cover the opening based on the external input signal, and activating the driving actuator to expose or cover the opening according to a result of the identification.

Disclosed is an electronic device, including a first housing, a second housing, and a snap release module. The first housing is provided with a fastening slot. The second housing is provided with an accommodation slot. The snap release module is accommodated in the accommodation slot, and includes a slide member, an elastic component, a hook, and a stop member. The slide member reciprocates in a first axial direction. When the first housing is assembled to the second housing in the second axial direction, the slide member is located at the snap position for the hook to be buckled in the fastening slot, and the first housing presses the stop member so that the stop member abuts against the slide member. When the slide member slides from the snap position to the release position, the stop member stops the slide member and the hook is detached from the fastening slot.

In some examples, an electronic device includes an electronic component, a battery pack that is dockable to the electronic component, and a lock to lock a docked battery pack to the electronic device. In some examples, the lock is to move to a locked state in which the docked battery pack is to be locked to the electronic device and electrically coupled to the electronic component to power the electronic component using the docked battery pack and the lock is to move to an unlocked state in which the docked battery pack is to be unlocked from the electronic device and electrically isolated from the electronic component.

An improved method and system for providing a magnetic closure system for an electronic device (100) may include a first portion (130), a second portion (150), a connecting element (145) pivotally connecting the first portion to the second portion and configured to enable the electronic device to fold between a closed position and an open position, and a magnetic element (160, 165) for providing a closure force to bias the electronic device in the closed position. The magnetic element may include a first magnet pair and a second magnet pair, each of the first magnet pair and second magnet pair including a first magnet housed within the first portion and a second magnet housed within the second portion. The first magnet pair may provide an attractive magnetic force that biases the electronic device in the closed position, while the second magnet pair may provide a repelling magnetic force that partially counteracts the biasing from the attractive magnetic force as a gap between the first portion and the second portion decreases, and a pole size of the second magnet pair is smaller than a pole size of the first magnet pair.

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.