The disclosure generally relates to a system and method for managing distributed encrypted combination over-locks from a remote location. In an exemplary embodiment, the invention is a distributed management system for that controls access to various locations, such as, for example, self-storage units, hotel rooms, apartment buildings, storage containers, short-term housing rentals, lockers, equipment rooms, vaults, hospitals, airports, government facilities, nuclear power facilities, water treatment facilities, weapon storage facilities, aircraft cockpits, and any other setting that requires restricted, selective, or monitored access that can be remotely controlled.

A security device for a trailer door which has a rotatable post for a locking door and a bar member secured to the post, the security device comprising a plate member for securement to a substrate, a cover hingedly connected to the plate member and movable between an open and closed position, a locking device mounted at one end of the cover, the locking device having a housing, a plunger mounted within the housing, the plunger being movable between an extended position and a retracted position, the plunger being spring biased to the extended position, and a deflector extending upwardly from the plate member, the deflector having an aperture formed therein, the plate member being located such that the plunger enters the aperture when the cover is in a closed position.

A security device for a trailer door which has a rotatable post for a locking door and a bar member secured to the post, the security device comprising a plate member for securement to a substrate, a cover hingedly connected to the plate member and movable between an open and closed position, a locking device mounted at one end of the cover, the locking device having a housing, a plunger mounted within the housing, the plunger being movable between an extended position and a retracted position, the plunger being spring biased to the extended position, and a deflector extending upwardly from the plate member, the deflector having an aperture formed therein, the plate member being located such that the plunger enters the aperture when the cover is in a closed position.

The disclosure generally relates to a system and method for managing distributed encrypted combination over-locks from a remote location. In an exemplary embodiment, the invention is a distributed management system for self-storage facilities that allow for vacant units to be secured with over-locks, and which allow the over-locks to be removed by customers without human or manual intervention from the self-storage facility, where an API is used to facilitate communications between a lock management system and a property management system.

The disclosure generally relates to a system and method for managing distributed encrypted combination over-locks from a remote location. In an exemplary embodiment, the invention is a distributed management system for self-storage facilities that allow for vacant units to be secured with over-locks, and which allow the over-locks to be removed by customers without human or manual intervention from the self-storage facility, where an API is used to facilitate communications between a lock management system and a property management system.

A lock mechanism for engaging a hasp within a housing such that said hasp is lockably engagable within the housing, the mechanism comprising a processor, a power supply such as a battery cell, a memory, a transducer and an actuator, the transducer being operated by a dial such that the processor is designed to analyze the signals from the transducer and to send a signal to the actuator to engage and disengage the hasp when a signal comprising a sequence of forward and backward rotations, each consisting of chains of discrete clicks of the dial corresponds to a stored combination in the memory, and a method of use of same.

A lock mechanism for engaging a hasp within a housing such that said hasp is lockably engagable within the housing, the mechanism comprising a processor, a power supply such as a battery cell, a memory, a transducer and an actuator, the transducer being operated by a dial such that the processor is designed to analyze the signals from the transducer and to send a signal to the actuator to engage and disengage the hasp when a signal comprising a sequence of forward and backward rotations, each consisting of chains of discrete clicks of the dial corresponds to a stored combination in the memory, and a method of use of same.

A lockout system includes a hasp assembly and a plurality of tags. The hasp assembly has a back plate defining slots each sized and shaped to receive a tag. The back plate and tags each have openings that align when a tag is received in a slot. A first hasp portion has a first loop portion and a second hasp portion has a second loop portion. The first and second hasp portions are rotatable with respect to one another such that moving the lockout system has both an unlocked position and a locked position associated with an open position and a closed position. In the closed position, the first and second hasp portions complete and define a closed loop, where one or more tags can be installed in slots preventing further movement from the closed position.

A lockout system includes a hasp assembly and a plurality of tags. The hasp assembly has a back plate defining slots each sized and shaped to receive a tag. The back plate and tags each have openings that align when a tag is received in a slot. A first hasp portion has a first loop portion and a second hasp portion has a second loop portion. The first and second hasp portions are rotatable with respect to one another such that moving the lockout system has both an unlocked position and a locked position associated with an open position and a closed position. In the closed position, the first and second hasp portions complete and define a closed loop, where one or more tags can be installed in slots preventing further movement from the closed position.

A theft deterrent system for an electronics cabinet may include a first hasp, which may include a plurality of studs extending from a surface thereof. At least one stud of the plurality of studs may be dimensioned to engage with a padlock ring of the electronics cabinet. The first hasp may have a tab having a shackle hole therein. The theft deterrent system may include a second hasp, which may include a plurality of holes dimensioned to receive a respective one of the plurality of studs. The second hasp may also have a tab having a shackle hole therein. The system may further include a shield retainer dimensioned to surround at least portions of the first hasp and the second hasp. To secure the electronics cabinet, a shackle of a hidden shackle lock may be fed through the shackle holes and the hidden shackle lock may then be locked.