A ceiling system comprising a ceiling tile comprising a backer panel and a plurality of ceiling components assembled to the backer panel. The plurality of ceiling components include tabs that pass through openings in the backer panel and protrude from a top surface of the backer panel and that are configured to be used to mount the ceiling tile to a ceiling hanger system.

A ceiling system is provided for use in a building space. The ceiling system has an open cell grid structure and is attached to a support structure of the building via hanging hardware. The open cell grid structure is constructed of a plurality of first panels attached to the hanging hardware, a plurality of second panels attached to the plurality of first panels, and a plurality of third panels attached to the plurality of second panels. The first, second, and third panels are attached via a plurality of slots which allow secure engagement and utilize gravity to retain them in the assembled condition. Beneficially, the plurality of second panels and the plurality of third panels are free of hanging hardware.

A ceiling system comprising a ceiling tile comprising a backer panel and a plurality of ceiling components assembled to the backer panel. The plurality of ceiling components include tabs that pass through openings in the backer panel and protrude from a top surface of the backer panel and that are configured to be used to mount the ceiling tile to a ceiling hanger system.

The present disclosure relates generally to cladding that forms an architectural surface, for example, suitable for forming a ceiling. The present disclosure relates more particularly to a cladding system including a plurality of flexible grid members arranged so as to form a grid that extends in at least two dimensions and includes grid cells that are delimited by the flexible grid members and a plurality of panels supported by the grid. At least a first portion of the panels are arranged so as to form an architectural surface.

A collapsible acoustic honeycomb ceiling installation can be made by cutting desired material into panels. Next, a manufacturer can cut one or more notches into the panels. The manufacturer can assemble the collapsible acoustic honeycomb ceiling installation by aligning the one or more notches on the panels and slideably connecting the panels. The resultant collapsible acoustic honeycomb ceiling installation can provide a versatile decorative feature to a space while maintaining or altering the acoustics of the space as desired. Further, because the ceiling installation is collapsible, a manufacturer or installer can easily transport, install, and removed the ceiling installation.

A ceiling system comprising a plurality of ceiling tiles each comprising a felt backer panel and a plurality of felt ceiling components mounted to the felt backer panel. The plurality of felt ceiling components arranged parallel to one another along a bottom surface of the felt backer panel.

The plurality of ceiling tiles mounted to a ceiling hanger system so that each of the plurality of ceiling tiles encloses one of a plurality of grid openings.

An elongate acoustic panel for installation in an interior space comprising at least one acoustic surface, an edge region adjacent to the at least one acoustic surface, and a distribution of one or more LED's along the edge region.

An acoustic drop ceiling product, a dynamic acoustic drop ceiling system and related methods that include multiple differently shaped drop ceiling products that can be quickly and easily installed into a backer panel and ten onto construction drop ceiling hangers, to provide an aesthetically pleasing image, such as an undulating image, along with a reduction in unwanted noise or room acoustics.

The present disclosure relates to utility partition device and systems which may be configured to bifurcate the ceiling cavity from the utilities, by preventing the insulation material present in the ceiling cavity from rolling onto the utilities. The utility partition device may be vacuum-formed into a predefined structure. Additionally, the predefined structure may include a utility corridor to accommodate the utilities, thereby bifurcating the ceiling cavity from the utilities.

An embodiment of the present disclosure provides complex curved structures and methods of making the same without requiring specially made frames or the like. These structures may include complex multi-axis, spherical, semi-spherical, twisted, or other like curves, for example. In this illustrative embodiment, individually sized boxes are stacked or assembled to form the structure.