A multifunctional storage box is provided, including a storage box body which is provided with a first storage cavity, a second storage cavity and a third storage cavity; the first storage cavity is provided with a first window used for taking out paper towels; the first window is formed in a front side of the first storage cavity; the second storage cavity is provided with several hanging parts used for hanging toothbrushes; a lower side of the second storage cavity is provided with an avoiding opening for avoiding toothbrushes; and a front side of the third storage cavity is provided with a second window used for allowing an air outlet tube to enter.

An electronic medication storage cabinet includes a plurality of drawers configured with a plurality of sensors arranged to identify a positioning of storage pockets within the drawers. Upon receiving an indication of a new medicine container to be loaded in the cabinet, a sequence of steps to load the medicine container into the cabinet is generated based on a mapping algorithm. A first step is displayed on a display the cabinet, and a determination is made as to whether the first step is associated with one of the plurality of drawers. In response to determining that the first step is associated with one of the plurality of drawers, the drawer is automatically unlocked. In response to determining that the first step is successfully completed, a determination of whether execution of any additional steps is pending and indicated on the display.

An electronic medication storage cabinet includes a plurality of drawers configured with a plurality of sensors arranged to identify a positioning of storage pockets within the drawers. Upon receiving an indication of a new medicine container to be loaded in the cabinet, a sequence of steps to load the medicine container into the cabinet is generated based on a mapping algorithm. A first step is displayed on a display the cabinet, and a determination is made as to whether the first step is associated with one of the plurality of drawers. In response to determining that the first step is associated with one of the plurality of drawers, the drawer is automatically unlocked. In response to determining that the first step is successfully completed, a determination of whether execution of any additional steps is pending and indicated on the display.

According to one embodiment, a system includes a cabinet, a cabinet housing, a mirrored door, and an accessory. The mirrored door includes a first mirror having a reflective surface forming an outer surface of the mirrored door, a second mirror having a reflective surface forming an inner surface of the mirrored door, and a first ferromagnetic element embedded within the mirrored door and located between the first and second mirrors. The accessory, which includes a second ferromagnetic element, is sized and shaped to be stored within the storage compartment of the cabinet. The accessory can be mounted to the mirrored door by magnetic attraction between the first and second ferromagnetic elements.

According to one embodiment, a system includes a cabinet, a cabinet housing, a mirrored door, and an accessory. The mirrored door includes a first mirror having a reflective surface forming an outer surface of the mirrored door, a second mirror having a reflective surface forming an inner surface of the mirrored door, and a first ferromagnetic element embedded within the mirrored door and located between the first and second mirrors. The accessory, which includes a second ferromagnetic element, is sized and shaped to be stored within the storage compartment of the cabinet. The accessory can be mounted to the mirrored door by magnetic attraction between the first and second ferromagnetic elements.

A dispensing cabinet may include a security panel and a plunger having a disengaged position and an engaged position. The plunger may be secured in the disengaged position by the security panel. The security panel may be released in order to transition the plunger from the disengaged position to the engaged position. The dispensing cabinet may further include a lever configured to interface with the plunger and one or more latch assemblies. The lever may shift upwards in response to the plunger being transitioned from the disengaged position to the engaged position. An upward motion of the lever may release the one or more latch assemblies by rotating, to a limit, a cam bracket included in each of the one or more latch assemblies. The dispensing cabinet may be unlocked by the release of the one or more latch assemblies.

The present disclosure relates to a workstation and a technique to automatically configure the workstation. The workstation can be used to perform various tasks including but not limited to medication delivery, collection of medical records, patient care, manufacturing operations, and others. The workstation can be configured by the user depending on the tasks to be performed using the workstation. Various sensors (e.g., hall effect sensors, optical sensors, or the like) can be coupled to the workstation, and sensor operators (e.g., magnets, color coded strips, or the like) can be coupled to the modules. By aligning sensor operators with sensors when modules are coupled to the workstation, a configuration (e.g., size, shape, location, or the like) of modules can be automatically detected by the workstation controller. The controller of the workstation can then adapt to perform certain tasks (e.g., lock/unlock drawers, or the like) depending on the detected configuration of modules.

The present disclosure relates to a workstation and a technique to automatically configure the workstation. The workstation can be used to perform various tasks including but not limited to medication delivery, collection of medical records, patient care, manufacturing operations, and others. The workstation can be configured by the user depending on the tasks to be performed using the workstation. Various sensors (e.g., hall effect sensors, optical sensors, or the like) can be coupled to the workstation, and sensor operators (e.g., magnets, color coded strips, or the like) can be coupled to the modules. By aligning sensor operators with sensors when modules are coupled to the workstation, a configuration (e.g., size, shape, location, or the like) of modules can be automatically detected by the workstation controller. The controller of the workstation can then adapt to perform certain tasks (e.g., lock/unlock drawers, or the like) depending on the detected configuration of modules.

A cabinet including a housing having a cavity, a door that closes a front opening of the cavity, and a storage device. The storage device may include a movable storage member that is movable relative to the housing between a first position within the cavity and a second position outside of the cavity. The movable storage member may be configured to be coupled to the housing at a plurality of different locations. The storage device may be coupled directly to an inner surface of a sidewall of the housing that defines the cavity. The storage device may also include a fixed storage member that is non-movably coupled to the housing such that the movable storage member is pivotable relative to the housing and relative to the fixed storage member.

A cabinet including a housing having a cavity, a door that closes a front opening of the cavity, and a storage device. The storage device may include a movable storage member that is movable relative to the housing between a first position within the cavity and a second position outside of the cavity. The movable storage member may be configured to be coupled to the housing at a plurality of different locations. The storage device may be coupled directly to an inner surface of a sidewall of the housing that defines the cavity. The storage device may also include a fixed storage member that is non-movably coupled to the housing such that the movable storage member is pivotable relative to the housing and relative to the fixed storage member.