A system and method for securing a locked-out component is provided. One embodiment slides a slidable blade of a lock out controller from a lockout position to a release position, wherein an inside connector between the slidable blade and a piston of a lock out attachment pushes the piston from a hook lock position to a hook extended position so that a hook is extended outward from the lock out attachment; coupling the hook to the locked-out component; and sliding the slidable blade of the lock out controller from the release position to the lockout position, wherein the inside connector coupled between the slidable blade pulls the piston from the hook extended position to the hook lock position, and wherein the hook is retracted substantially back into the interior of the lock out attachment so that the locked-out component that is coupled to the hook cannot be accessed by a tool.

An anti-theft merchandise hook that includes a top wire connected to a housing at a first end of the top wire, and to a mounting portion, used to mount the anti-theft merchandise hook to a stationary surface, at a second end of the top wire opposite the first end. A bottom wire is attached to the mounting portion and extends from the mounting portion towards the housing. The bottom wire is configured to hold retail merchandise. A hanger is at least partially disposed within the housing. The hanger is configured to move linearly between a closed position in which the hanger abuts the bottom wire, and an open position in which the hanger is spaced some distance from the bottom wire. A motor is configured to drive a rotary shaft in order to move the hanger between the closed position and the open position.

An anti-theft merchandise hook that includes a top wire connected to a housing at a first end of the top wire, and to a mounting portion, used to mount the anti-theft merchandise hook to a stationary surface, at a second end of the top wire opposite the first end. A bottom wire is attached to the mounting portion and extends from the mounting portion towards the housing. The bottom wire is configured to hold retail merchandise. A hanger is at least partially disposed within the housing. The hanger is configured to move linearly between a closed position in which the hanger abuts the bottom wire, and an open position in which the hanger is spaced some distance from the bottom wire. A motor is configured to drive a rotary shaft in order to move the hanger between the closed position and the open position.

“ELECTROMECHANICAL LOCKING SYSTEM FOR BATTERIES IN A CABINET” for application in a battery pack used in uninterrupted power supply (UPS) systems comprising a locking set with at least one electromechanical lock and a coupling system attached to a bracket, where the referred bracket is attached to an UPS system cabinet structure; a battery with at least a lock housing and an alignment element.

The disclosed computer-implemented method may include a magnetic insertable lock component with a magnet-sensing lock housing. By using a magnet within a pin and a magnetic field sensor within the lock housing, the apparatus may accurately detect the state of the lock. In some embodiments, the apparatus may determine the pin is inserted fully into the lock, the pin is inserted partially into the lock, the pin is not inserted in the lock, and/or that a foreign object that is not the pin is inserted into the lock. By using a magnet within the pin to track the state of the lock, the apparatus may improve both the user experience and the security of the lock. Various other methods, systems, and computer-readable media are also disclosed.

A system is provided. The system includes a detacher. The detacher includes a field source. The field source is arranged to provide a first magnetic field when power is applied to the field source. The detacher further includes a magnet arranged to provide a second magnetic field. The magnet is movable from a non-detach position to a detach position when exposed to the first magnetic field. The second magnetic field is arranged to unlock a security tag when the magnet is at the detach location. The system further includes an activation device. The activation device includes a processor configured to trigger power to be supplied to the field source.

An apparatus for locking a portable computer includes an apparatus body, a first clamping member rotatably coupled to the apparatus body, configured to support a first side of a computer body of the portable computer, and configured to be fitted over a first edge of a display of the portable computer, a slider coupled to the apparatus body to be reciprocally movable, a second clamping member rotatably coupled to the slider while being spaced apart from the first clamping member, configured to support a second side of the computer body of the portable computer, and configured to be fitted over a second edge of the display of the portable computer, and a locking and unlocking unit installed on the apparatus body and configured to selectively restrict or allow movement of the slider.

A lock assembly for preventing theft of an electronic mobile device (EMD) is configured to engage a security cavity formed in the 2 mm thick outer wall of the EMD. The security cavity has left and right outwardly-flaring side walls extending away from the opening. The lock body supports first and second locking elements, each of which is configured to be insertable into the security cavity and has an arcuately-shaped side wall that is complementary in shape to the right/left outwardly flaring side wall of the security cavity. The first and second locking elements cooperate structurally to become wedged inside the security cavity in manner that prevents separation of the lock body from the EMD while the first and second locking elements are positioned inside the security cavity. Preferably, the arcuately-shaped sides of the locking elements extend over an arc angle of 180 degrees. A cable is coupled to the lock body to enable tethering the EMD to an immovable object, to prevent its theft.

A security device and base for a mobile device. The security device includes a body, at least two sliding arms coupled to the body, and a leveling plate coupled to the body and configured to receive the mobile device.

A security device and base for a mobile device. The security device includes a body, at least two sliding arms coupled to the body, and a leveling plate coupled to the body and configured to receive the mobile device.