In an embodiment, an apparatus (e.g., for damping a motion of a drawer in a storage system) comprises a plate to pivotally attach to a first wall of a drawer, the plate comprising a pivot point about which the plate can pivot; a damped gear coupled to the plate, the damped gear having a plurality of gear teeth; and a spring to facilitate pivoting the plate about the pivot point to engage at least one of the plurality of gear teeth with at least one tooth on a rack. In some embodiments, the spring is to pivot the plate from a first configuration to an angular position relative the wall in a second configuration, wherein the at least one of the plurality of gear teeth and the at least one tooth on the rack are fully engaged with one another in both the first configuration and the second configuration.

A slide rail assembly includes a first rail, a second rail and a positioning device. The first rail includes a first structure and a second structure. The second rail is movable relative to the first rail. The positioning device is arranged to the second rail and includes an elastic member and a positioning member. The elastic member provides an elastic force to the positioning member. When the second rail is moved relative to the first rail from a first position to a second position, the positioning member is moved to an engaging position through the elastic force and abuts against the first structure. When the second rail is moved relative to the first rail from the second position to a third position, the positioning member is moved from the engaging position to a disengaging position and no longer abuts against the first structure by guidance of the second structure.

A workbench has a frame disposed on a set of wheels with a plurality of storage solutions, such as drawers, disposed within the frame. The workbench can include a work surface on a top surface of the frame and one or more handles permitting movement of the workbench as desired. The workbench can include a pegboard surface that is pivotable between a deployed configuration, where the pegboard extends upward from a back surface of the workbench, and a stowed configuration, where the pegboard is stored adjacent the back surface of the workbench. Typically, in the stowed configuration, the pegboard surface does not extend beyond either a plane defined by the work surface or a plane defined by a bottom surface, opposite the work surface, of the workbench frame. The workbench may be packaged and shipped in the stowed configuration, allowing the user to easily fully assembly the workbench assembly.

A universal drawer slide is described. The drawer slide includes an outer slide member and an inner slide member that are configured to move between a closed position and an extended position. A lever is pivotally mounted to a front portion of the inner slide member. A cam mounts to the outer side member in at least a first position and a second position. An engaging end of the lever engages with the cam in either the first position or the second position.

A universal drawer slide is described. The drawer slide includes an outer slide member and an inner slide member that are configured to move between a closed position and an extended position. A lever is pivotally mounted to a front portion of the inner slide member. A cam mounts to the outer side member in at least a first position and a second position. An engaging end of the lever engages with the cam in either the first position or the second position.

A slide rail assembly includes a first rail, a second rail, a third rail, a synchronization member and a fastening member. The third rail is movably mounted between the first and second rails. The synchronization member and the fastening member are movably mounted to the third rail. The synchronization member is configured to engage with the second rail, such that the second and third rails can be synchronously moved relative to the first rail along an opening direction. When the second and third rails are moved to a first predetermined position, the synchronization member is disengaged from the second rail. When the third rail is moved from the first predetermined position to a second predetermined position along the opening direction, the third rail is fastened to the first rail by the fastening member to prevent the third rail from being moved relative to the first rail along a retracted direction.

A slide rail assembly includes a first rail, a second rail, a third rail, a synchronization member and a fastening member. The third rail is movably mounted between the first and second rails. The synchronization member and the fastening member are movably mounted to the third rail. The synchronization member is configured to engage with the second rail, such that the second and third rails can be synchronously moved relative to the first rail along an opening direction. When the second and third rails are moved to a first predetermined position, the synchronization member is disengaged from the second rail. When the third rail is moved from the first predetermined position to a second predetermined position along the opening direction, the third rail is fastened to the first rail by the fastening member to prevent the third rail from being moved relative to the first rail along a retracted direction.

A slide rail assembly includes a first rail, a second rail and a positioning device. The first rail includes a first structure and a second structure. The second rail is movable relative to the first rail. The positioning device is arranged to the second rail and includes an elastic member and a positioning member. The elastic member provides an elastic force to the positioning member. When the second rail is moved relative to the first rail from a first position to a second position, the positioning member is moved to an engaging position through the elastic force and abuts against the first structure. When the second rail is moved relative to the first rail from the second position to a third position, the positioning member is moved from the engaging position to a disengaging position and no longer abuts against the first structure by guidance of the second structure.

An Epi-Pen cabinet, including a body including at least one drawer receiving compartment, and at least one Epi-Pen storing drawer slidable within the at least one drawer receiving compartment, the at least one Epi-Pen storing drawer including a main body including a storage portion to store at least one Epi-Pen therein, a pop-up flag disposed within a front top portion of the main body to pop up when the main body is slid out from the at least one drawer receiving compartment, and a window disposed on a front surface of the main body to indicate a condition of the at least one Epi-Pen stored within the storage portion.

An Epi-Pen cabinet, including a body including at least one drawer receiving compartment, and at least one Epi-Pen storing drawer slidable within the at least one drawer receiving compartment, the at least one Epi-Pen storing drawer including a main body including a storage portion to store at least one Epi-Pen therein, a pop-up flag disposed within a front top portion of the main body to pop up when the main body is slid out from the at least one drawer receiving compartment, and a window disposed on a front surface of the main body to indicate a condition of the at least one Epi-Pen stored within the storage portion.