A pet collar for preventing pet theft includes a latch assembly selectively movable between an open position and a closed position. The latch assembly has a front plate cover, a back plate cover, a cam pivotally secured to and positioned in between the front and back plate covers, a first eye extending from a surface of the front plate cover, and a second eye extending from a surface of the cam. The latch assembly includes a cord having a first end secured to the latch assembly and a second end secured to a portion of the cord. The cord extends through a channel defined by the front and back plate covers.

This disclosure is directed to product merchandising systems that are designed to prevent brute force attempts to steal a product on display. The merchandising systems include security features that enhances the strength of the connection between a puck assembly and a base assembly and between the base assembly and a display surface. The merchandising systems are suited for withstanding brute force pulling attacks on the puck assembly and the base assembly.

A cooler access control system locks a cooler when occurrence of an event is detected that requires limiting access to the inside of the cooler. Examples of such events include the loss of power to the cooler for a predetermined period of time, the opening of the cooler door for longer than an allowed time, the loss of functionality of a temperature probe and others. In an embodiment, a service mode is supported wherein the door is left unlocked despite the occurrence of such an event, to allow a stocker or other personnel to leave the cooler door open while stocking the cooler with product.

A mounting base for use with a wirelessly locatable tag may include a base portion defining a latching member configured to engage a wirelessly locatable tag to releasably retain the wirelessly locatable tag to the mounting base, a contact block attached to the base portion and configured to be positioned at least partially within a battery cavity of the wirelessly locatable tag, the contact block defining a top side and a peripheral side. The mounting base may further include a first conductive member positioned along the peripheral side of the contact block and configured to contact a first battery contact in the battery cavity of the wirelessly locatable tag, a second conductive member outwardly biased from the top side of the contact block, the second conductive member configured to contact a second battery contact in the battery cavity of the tag, and a power cable coupled to the base portion.

A security apparatus for a portable electronic device includes a lock mechanism. A lock cylinder is configured to be rotated by a key. A cam member is coupled to the lock cylinder for rotation with the lock cylinder between an engaged position and a disengaged position. A first finger and a second finger are configured to be inserted into an aperture of the portable electronic device. The plunger is positioned between the first finger and the second finger. A user input member coupled to the plunger is selectively actuatable to move the plunger relative to the first and second fingers. When the cam member is in the engaged position, the user input member is precluded from moving from a first position to a second position. When the cam member is in the disengaged position, the user input member is capable of moving from the first position to the second position.

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 bicycle lock has a horseshoe lock with a base; and a steel cable. The base has a lock seat, a shell disposes on the base, the shell has a cover to hood on the lock seat, a lock core disposes on the lock seat, a swivel seat assembles on the lock core, a torsion spring disposes between the lock core and the swivel seat, a lock column disposes in an accommodating groove of the shell, a stretch spring disposes in the accommodating groove and sleeves on the lock column and the shell, a butt member disposes in the accommodating groove, a first compression spring disposes in the accommodating groove and sleeves on the shell and in the butt member, a second compression spring disposes in an accommodating groove of the lock seat. The steel cable has a lock rod to insert into the shell and the lock seat.

A security apparatus for securing a portable electronic device for retail display includes a base assembly extending along a base assembly axis and structured to couple to a display fixture. The base assembly includes a base portion structured to move along the base assembly axis. A body extends along a body axis and is structured configured to couple to the base portion. A first securing member is coupled to the body and a second securing member is coupled to the body. At least one of the first and second securing members moves along the body axis relative to the body. The first and second securing members each include a device engagement portion structured to at least partially surround a portion of the portable electronic device. The base portion is structured to move the body along the base assembly axis.

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.

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.