A lock box assembly includes a shell with one or more partitions defining one or more openings. Compartments are connected to the shell in the one or more openings. The compartments are capable of being rotated about an axis of rotation from a closed to open position in order to receive keys or other items to be deposited and later retrieved. A single axle is inserted through holes in each compartment and through holes in each partition and side panels of the shell to secure the compartments in the lock box assembly.

A combination faux switch and sliding bolt lock, one or more imitation switches mounted on a cover to an enclosure, the cover and switches resembling a circuit breaker panel, each switch having a toggle arm including a back portion disposed in the enclosure behind the cover, manipulation of the toggle arm moving the back portion between first and second positions, the back portion slidably attached to a bolt one end of which is received in an aperture in the side walls of the enclosure locking the cover to the enclosure. One embodiment of the invention includes a plurality of combination faux switched and sliding bolts such that a locking combination may consist of any combination of the switches appearing to be in “off” or “on” positions.

Shopping container safes and related methods for securing objects are disclosed. According to an aspect, a shopping container includes a load carrier and a safe being attached to the load carrier. The safe may include a door and a lock. The lock may be configured to receive security information from an object. The lock may also determine whether to validate the received security information. Further, the lock may either fasten or unfasten the door of the safe in response to determining to validate the received security information.

The present invention relates to a feedback mechanism for a biological safety cabinet comprising a glass window and a cover plate in front of the glass window, the feedback mechanism comprises a monitor control component comprising a roller element being fixedly disposed with respect to the cover plate and comprising a rollable roller, and a contact component being fixedly disposed relative to the glass window so that the contact component can move relative to the roller with movement of the glass window, the contact component comprising a recess for receiving the roller, wherein the contact component moves with the glass window to a position corresponding to the roller when the glass window moves relative to the cover plate, such that the roller rolls into the recess, allowing the feedback mechanism to generate tactile feedback.

An autonomous delivery system for a vehicle is described and includes a plurality of cubbies for retaining items for delivery to users, wherein each of the cubbies comprises a door for selectively enabling access to contents of the cubby, wherein each of the doors comprises a selectively transparent display and wherein upon arrival at a delivery destination, the selectively transparent displays communicate to a recipient associated with the delivery destination in which one of the cubbies a delivery associated with the recipient is retained; and an authentication system for authenticating the recipient and, subsequent to successful authentication of the recipient, permitting access to contents of the one of the cubbies in which the delivery associated with the recipient is retained.

A device for preventing unwanted opening of a locked enclosure includes a lock bolt moveable between a locked position and an unlocked position. A face gear is meshable with and rotatable by the worm gear between locking and unlocking positions when the worm gear is driven in the first and second directions, respectively. A blocker member is rotatable between first and second positions. A biasing member is operatively coupled to the face gear and the blocker member to bias the blocker member in a biasing direction. A sliding member selectively disengages the blocker member to allow the blocker member to rotate in the biasing direction. A lever arm is operatively coupled to the sliding member such that the lever arm is in the disengaged and engageable positions when the sliding member engages the blocker member in the first and second positions, respectively.

A lock includes a housing having a plurality of apertures receiving buttons. A biasing member biases each button towards an un-pressed position. A plurality of spools includes circumferential grooves. Each circumferential groove has a notch that is angularly displaced relative to each of the other notches on that spool. A plurality of legs is in communication with one of the buttons and contacts one of the circumferential grooves. A locking plate includes apertures receiving the spools. An actuator is associated with the locking plate and a latch. Pressing and releasing the buttons causes translation of the spool rotationally orienting a notch to be adjacent to the locking plate. The locking plate only moves into an unlocked position, when driven by the actuator disengaging the latch and unlocking the lock if all of the notches which are adjacent to the locking plate are in a unlocked rotational orientation.

A control unit 1 for the lock of a safe having a front housing part 4 and a rear h housing part 3. A controller 6 is integrated in the control unit 1 that, when a correct combination is entered in the keypad 5, moves a module through a motor 11 in the number of turns corresponding with this combination. The module has a transmission board 8 integrated in the housing 2 of the control unit 1 and a bolt 9 for actuating the safe's lock.

A vault door system for use in a vault includes a door supporting a plurality of locking bolts that move between locked and unlocked positions. A drive system includes a prime mover and a drive train. The prime mover actuates the drive train to move the locking bolts between the locked and unlocked positions. An inner handle is at an inner side of the door and is arranged to be accessible from an interior of the vault. The inner handle is operatively coupled to the drive train and is movable between a first position and a second position. In the first position, the drive train operatively couples the prime mover to the plurality of locking bolts so that the prime mover can move the locking bolts between the locked and unlocked positions. In the second position, the drive train does not operatively couple the prime mover to the plurality of locking bolts.

An electronic lock with an electronic sensing arrangement to accurately sense relative positions of a bolt which mechanically locks a door, such as a door of an electronic drop safe, and to also sense an electronically controlled plunger which locks the bolt in place. The arrangement provides a mechanism for sensing a variety of mechanical malfunctions, as well as, potential fraud or tampering situations.