Described herein is an integration cell that can be pre-installed with plural electronic equipment units at a location remote from a datacenter. One or more pre-installed integration cells can be shipped on a single standard shipping palette to the datacenter location and moved into the datacenter through standard doorways and using standard elevators. Inside the datacenter, the integration cell can be inserted into a seismic electronic equipment storage rack to allow for bulk installation or removal of plural electronic equipment units.

A modular display and dispensing assembly and method distribute low-voltage power to a low-voltage electrical display feature at each of a plurality of display and dispensing modules arranged in a matrix and placed upon a substrate for display of items to be dispensed. A sub-base is secured to the substrate at a desired, prescribed display and dispensing location, while a main base is selectively coupled to and uncoupled from the sub-base. A plurality of electrical contact points in both the sub-base and main base enables the sub-base to remain securely mounted upon the substrate and connected to a source of low-voltage power while allowing selective uncoupling of the main base from the sub-base for ready removal of the matrix from the substrate for safe storage, without disturbing the secure placement of the sub-base at the desired prescribed display and dispensing location or the connection to the source of low-voltage power.

A portable structure has a main body and a plurality of telescopic beams. The main body includes a plurality of stacking modules. The plurality of stacking modules are configured to move between a collapsed position and an uncollapsed position. Each of the plurality of stacking modules has an inner surface and an outer surface. The plurality of stacking modules include a bottom stacking module and a top stacking module. The bottom stacking module is selectively and slidably disposed within the top stacking module. The top stacking module has a plurality of holes formed therethrough. The bottom stacking module is nested within the top stacking module, where the plurality of stacking modules are in the collapsed position. The bottom stacking module is unnested from the top stacking module, where the plurality of stacking modules are in the uncollapsed position.

A joint for modular furniture includes a first panel joined to a second panel with a slot and a tab. The slot and tab are formed with complementary faces which are angled to prevent delamination of anisotropic materials such as plywood.

A grid cabinet with variable spaces includes a cabinet body and a control part. The cabinet body is provided with two or more accommodating cavities, each of which is provided with at least one door and a door locking part. A separator is disposed between every adjacent accommodating cavities, the adjacent accommodating cavities are separated into respective independent spaces by the separators, and a separator locking part for fixing and locking the separator is provided in each accommodating cavity. Under control of the control part, the door locking parts of two or more adjacent accommodating cavities are opened synchronously, the separator locking parts are loosened, and the separators are operated so that the two or more adjacent accommodating cavities are communicated.

A method for integrating a building block rack framework assembly 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.

The invention is directed to a stackable container having a gable type top wall and a gable type bottom wall. The top wall of the container can include an upwardly extending tab that cooperates with a slot in the bottom wall of a like container to facilitate stacking of two or more containers. The container includes a front opening.

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 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.