A storage system for mounting equipment includes a plurality of vertical structural side members positioned at corners of the storage system. A plurality of horizontal structural members is coupled to the plurality of vertical structural side members. Specifically, each of the horizontal structural members has a plurality of corners, and each corner of each horizontal structural member is coupled to one of the vertical structural side members. Each vertical structural side member is an extrusion having a length selected to accommodate a desired height in a facility in which the storage system is installed.

A product management display system for merchandising product on a shelf includes a divider secured to a support structure, a pusher to move product, a barrier, and a low product indicator device. The low product indicator device may be visible when an amount of product positioned on the top surface of the divider floor or on the shelf is low.

Systems and methods for an ergonomic locker system including a repositionable cross-member or bar for supporting a plurality of clothes hangers suspended between two oppositely disposed tracks. The hanging bar is slideable along the tracks and may be adjusted from a lower, forward position to a higher, back position in order to enhance storage space and improve functionality. An independently lockable auxiliary locker further allows a user to secure personal possessions even when the entire locker system is open using a master door.

A system for plant cultivation includes decks having an upper face and a lower face, the decks disposed in a vertical array, each deck having sides connected at corners, each corner extending outward beyond the sides to form a protuberance.

A toolset organizer includes a first connector that includes a first male connector body adjacent to a first flange along an axis, a female interface formed through the first flange and at least partially into the first male connector body to define a female interface to receive and retain a second male connector body of a second connector along the axis. Each connector is friction fit to essentially snap into an adjacent connector to retain a tool such as a box-end wrench between each adjacent pair of connectors with the ability to rotate the tool on a respective connector about an axis A while retaining the other connectors together. Each connector may be progressively sized to accommodate a full set of tools such as a box-end wrench set.

A modular flooring system comprises a modular floor surface and a plurality of stackable, three-dimensional modular interior design components (MIDCs). The modular floor surface can comprise an array of discrete, raised, low-profile, receiving panels that can be rectangular in shape. MIDCs can be securely and interchangeably placed on any group of one or more adjacent unoccupied receiving panel and they can also be stackable, such that various different floor layouts can be created. Each of the MIDCs may comprise a lower surface recess that fits over a group of one or more adjacent raised receiving panels. A first MIDC may have an raised lip on a top surface such that the lower surface recess of a second MIDC fits over, separately and interchangeably, one (or more) of the raised receiving panels and the raised lip on the top surface of the first MIDC. The MIDCs can comprise a storage cube MIDC (square or rectangular cube) as well as specialized MIDCs, such as a commode MIDC, a sink MIDC, a cooler MIDC, and a tile MIDC, etc. In such a manner, a user of the modular flooring system could locate the MIDCs on the floor surface and/or stack them to configure a preferred layout. Moreover, the MIDCs could be rearranged later to design a new layout.

A wall connector for a modular furniture system is provided. The wall connector comprises a rail extending between a first end portion and a second end portion. The rail defines a first channel configured to fittingly receive an edge portion of a first side wall and a second channel configured to fittingly receive an edge portion of a second side wall such that the second side wall is orthogonal to the first side wall. Each of the first and second end portions is configured to engage a corner portion of an end wall for attachment thereto.

A telecommunication cabinet for managing connections between incoming and outgoing cables at building premises. The cabinet has a back wall, and bottom, top, left, and right walls. The bottom wall has a first incoming cable port that opens at a front edge of the bottom wall, the top wall has a second incoming cable port that opens at a front edge of the top wall, and the second incoming cable port is aligned vertically with the first incoming cable port. At least one of the right and the left walls has an outgoing cable port. Layers of incoming cables can enter the cabinet for connection, or pass through the cabinet to enter a second cabinet, by inserting the layers from the front of the cabinet into one or both of the incoming cable ports. Cable clamp assemblies fix the cables of each layer at corresponding positions inside the ports.

A modular flooring system comprises a modular floor surface and a plurality of stackable, three-dimensional modular interior design components (MIDCs). The modular floor surface can comprise an array of discrete, raised, low-profile, receiving panels that can be rectangular in shape. MIDCs can be securely and interchangeably placed on any group of one or more adjacent unoccupied receiving panel and they can also be stackable, such that various different floor layouts can be created. Each of the MIDCs may comprise a lower surface recess that fits over a group of one or more adjacent raised receiving panels. A first MIDC may have an raised lip on a top surface such that the lower surface recess of a second MIDC fits over, separately and interchangeably, one (or more) of the raised receiving panels and the raised lip on the top surface of the first MIDC. The MIDCs can comprise a storage cube MIDC (square or rectangular cube) as well as specialized MIDCs, such as a commode MIDC, a sink MIDC, a cooler MIDC, and a tile MIDC, etc. In such a manner, a user of the modular flooring system could locate the MIDCs on the floor surface and/or stack them to configure a preferred layout. Moreover, the MIDCs could be rearranged later to design a new layout.

A locker system capable of dynamically generating a storage space based on an object volume and an operation method thereof are disclosed. In the locker system, at least one group of support members is disposed on a cabinet body to allow a user to select whether to dispose a detachable carrier; in order to place an stored object into the cabinet body, an object volume of the stored object is detected, the user is prompted to dispose the detachable carrier at a specified location inside the cabinet body based on the object volume, so that the interior space of the cabinet door can be dynamically partitioned to generate an appropriate storage space for placing the stored object, thereby achieving the technical effect of improving a space usage rate.