An apparatus and method for storing medical products such as pharmaceutical and medical products in climate controlled storage devices includes climate control systems in communication with inventory access and tracking systems.

A lock state monitoring apparatus, a method, a lock driving apparatus and a lock assembly. The lock state monitoring apparatus includes: a rheostat and a first load, where a movable contact end of the rheostat is connected with a first end of the first load, and a first fixed end of the rheostat and a second end of the first load are configured to bear a first voltage; the movable contact end of the rheostat is configured to be connected with an output axis of a drive motor in the lock; the first fixed end and the movable contact end of the rheostat, or two ends of the first load, are configured to be connected with a main control board in the lock to output a first voltage signal to the main control board, so that the main control board determines a lock state according to the first voltage signal.

An electronic storage cabinet lock includes a lock housing, a lock core, a circuit board, a motor assembly, a clutch mechanism and a battery assembly that are installed in an outer shell. A button assembly and a handle are mounted on the outer side of the outer shell. A cam is mounted on the motor assembly. One end of the lock core is secured in a shaft hole of the handle. When a password is correctly inputted, the button assembly transmits information to the circuit board to control the motor assembly to operate. The cam is driven to rotate to control the open state or closed state of the clutch mechanism. The handle can rotate to drive the lock core to rotate, thereby rotating a lock tongue to open the lock.

An electric strike lock is disclosed. The electric strike lock cooperates with a lock when in use. The lock has a lock tongue. The electric strike lock includes a base. The base has an opening for accommodating the lock tongue. The base has a pair of grooves corresponding to two opposite sides of the opening. Two sliding members are slidably disposed in the respective grooves. The sliding members are connected with at least one driving unit for the sliding members to slide closer to each other so that the lock tongue is engaged in the opening, or for the sliding members to gradually slide away from each other so that the lock tongue is disengaged from the opening, thereby performing locking and unlocking operations on a door in a sliding manner.

A smart lock for securing a door comprising: a housing mountable to the door; an actuator within the housing configured to actuate a lock mechanism between a locked position and an unlocked position, the lock mechanism including a latch bolt with an angled front face, the latch bolt configured to be retractable against a biasing force provided by a biasing means such that the door is closeable when the lock mechanism is in the locked position; and a receiver within the housing configured to wirelessly receive a signal to control operation of the actuator; a sensor mountable exclusively to the door so as to generate a signal indicative of the door beginning to move; a controller arranged to receive the signal indicative of the door beginning to move, the controller configured to control the actuator to actuate the lock mechanism in response to the signal indicative of the door beginning to move.

This document discloses a storage device for theft-proof storage of valuable articles, comprising a cabinet, having at least one drawer space, a safe drawer, which is received in the drawer space, a safe housing, comprising side walls and a top wall connecting the side walls, wherein the safe drawer is slidably connected to the safe housing and wherein the safe housing is mounted to the cabinet in the drawer space, a locking member, which is movably connected to the safe drawer or to the safe housing, an actuator, which is operatively connected to the locking member, for controlling a movement of the locking member, and a controller, which is operatively connected to the actuator, and which is configured to control the actuator. The controller is configured for receiving a control signal, based on which the controller is configured to control the actuator. The locking member is movable between a first position, in which the locking member locks safe drawer relative to the cabinet, and a second position, wherein the safe drawer is unlocked relative to the cabinet.

A rotation converter according to certain embodiments generally includes a case, an input member, a shuttle, and an output member. The input member is rotatably mounted to the case, and is rotatable from an input member home position in each of a first rotational direction and a second rotational direction. The shuttle is movably mounted in the case, and is engaged with the input member such that rotation of the input member from the input member home position in each of the first rotational direction and the second rotational direction drives the shuttle from a shuttle home position to a shuttle actuated position. The output member is rotatably mounted to the case and engaged with the shuttle such that the output member rotates in an output member rotational direction in response to movement of the shuttle from the shuttle home position to the shuttle actuated position.

Handle device for operating doors, windows and the like. The handle device comprises a first element (3, 103), which is rotatable about an axis of rotation, a second element (8, 108), and a coupling device (10, 110) which is arranged to selectively allow and prevent relative rotation about the axis of rotation between the first and the second element. The coupling device comprises a first coupling member (11, 111) which is connected to or forming an integral part of the first element. A second coupling member (12) is connected to or forming an integral part of the second element (112). At least one engaging member (13, 13, 113, 114) is movable between an engagement position in which it simultaneously engages the first and the second coupling members to thereby prevent relative rotation between the first and second element and a release position in which it is disengaged from at least one of the first and second coupling members to thereby allow relative rotation between the first and second element. An actuator (22, 122) is arranged to move the engaging member between the engagement position and the release position. The engaging member (13, 14, 113, 114) is pivotally mounted to the first coupling member (11,111) and arranged to pivotally move between the engagement position and the release position.

An intelligent door lock system is coupled to a door at a dwelling. A first sensor is at the dwelling. The first sensor is coupled to a drive shaft of a lock device to assist in locking and unlocking a lock of a lock device at a door. The lock device is coupled to the first sensor and the lock device includes a bolt. An engine, an energy source and a memory are coupled together. A magnetic sensor provides a reading or measurement used to determine a door open or closed status.

A storage device (10) for storing a key, the storage device (10) comprising a housing (12, 38); a blocking structure (40); a carrier (18) for carrying 76 a key, the carrier (18) being movable relative to the housing (12, 38) between a closed position (20), in which the carrier (18) is accommodated within the housing (12, 38), and an open position (26), in which the carrier (18) at least partly protrudes from the housing (12, 38) for retrieval of a key from the carrier (18), the carrier (18) comprising a blocking member (44) and a biasing device (42) arranged to bias the blocking member (44) into engagement with the blocking structure (40) in the closed position (20); and an actuator (52) comprising a locking structure (54), the actuator (52) being arranged to move the locking structure (54) between a 40 locking position (56) to lock the blocking member (44) when engaging the blocking structure (40), and an unlocking position (84) in which the blocking member (44) is not locked by the locking structure (54).