Disclosed is a clip and method of mounting a furring channel to a load bearing member of a drywall grid system. The load bearing member includes an elongated web having an enlarged upper portion and a lower portion from which a pair of coplanar flanges projecting outward. The clip includes a bottom wall and an end wall from which two hanger hooks project upward. Each hanger hook includes a folded over portion configured to snap-fit and entrap a portion of the enlarged upper portion of the load bearing member, with the bottom wall being disposed on one of flanges of the load bearing member. A second clip is mounted on the load bearing member in a similar manner so that its bottom wall is disposed on the other of the flanges of the load bearing member, and with the hanger hooks of the two clips being interposed. A respective furring channel is mounted on each of the clip to be supported thereby.

Disclosed is a clip and method of mounting a furring channel to a load bearing member of a drywall grid system. The load bearing member includes an elongated web having an enlarged upper portion and a lower portion from which a pair of coplanar flanges projecting outward. The clip includes a bottom wall and an end wall from which two hanger hooks project upward. Each hanger hook includes a folded over portion configured to snap-fit and entrap a portion of the enlarged upper portion of the load bearing member, with the bottom wall being disposed on one of flanges of the load bearing member. A second clip is mounted on the load bearing member in a similar manner so that its bottom wall is disposed on the other of the flanges of the load bearing member, and with the hanger hooks of the two clips being interposed. A respective furring channel is mounted on each of the clip to be supported thereby.

A hanger system includes an adjustable panel hanger. The adjustable panel hanger includes a connector member, a base member configured to removably attach to the connector member and to clamp onto a support member, wherein the base member includes a base flange, and a hanger member adjustably affixable on the base flange. Optionally, the hanger system may further include a modular panel connectable to the base member via the hanger member.

A pre-fabricated wall system that joins wall modules of different thicknesses can include a thin wall module having a depth defined by a distance from a front face thereof to a back face thereof, a thick wall module having a depth that is greater than the depth of the thin wall module, and a vertical connection post. The vertical connection post can include a first connection interface on a first side configured to secure to the thin wall module and a second connection interface on a second side opposite the first side configured to secure to the thick wall module. The thin wall module and the thick wall module can be arranged parallel or co-planar to None another when both the thin wall module and the thick wall module are secured to the vertical connection post.

Disclosed is a clip and method of mounting a furring channel to a load bearing member of a drywall grid system. The load bearing member includes an elongated web having an enlarged upper portion and a lower portion from which a pair of coplanar flanges projecting outward. The clip includes a bottom wall and an end wall from which two hanger hooks project upward. Each hanger hook includes a folded over portion configured to snap-fit and entrap a portion of the enlarged upper portion of the load bearing member, with the bottom wall being disposed on one of flanges of the load bearing member. A second clip is mounted on the load bearing member in a similar manner so that its bottom wall is disposed on the other of the flanges of the load bearing member, and with the hanger hooks of the two clips being interposed. A respective furring channel is mounted on each of the clip to be supported thereby.

Disclosed is a clip and method of mounting a furring channel to a load bearing member of a drywall grid system. The load bearing member includes an elongated web having an enlarged upper portion and a lower portion from which a pair of coplanar flanges projecting outward. The clip includes a bottom wall and an end wall from which two hanger hooks project upward. Each hanger hook includes a folded over portion configured to snap-fit and entrap a portion of the enlarged upper portion of the load bearing member, with the bottom wall being disposed on one of flanges of the load bearing member. A second clip is mounted on the load bearing member in a similar manner so that its bottom wall is disposed on the other of the flanges of the load bearing member, and with the hanger hooks of the two clips being interposed. A respective furring channel is mounted on each of the clip to be supported thereby.

A massive block preferably made of compressed earth is described as well as a method to build walls utilizing the massive blocks. By combining wooden frame construction and massive wall construction with bricks or other massive block elements, a wall can be built with the advantages of both. A wooden stud frame is erected, the electricity and other utilities are placed through the frame and then the frame is covered up on both sides with large massive blocks of a specific design that interlock with both the frame and each other. The cavities in between the blocks can then be filled up with a filler such as sand to create additional thermal mass and improve the sound insulation properties of the wall. A second embodiment of the wall utilizes an extra layer of blocks with grooves to accommodate a radiant heating system and insulation material.

A modular frame structure (1) of a partition wall made of glass panes, or other pane material, or pane (7), comprises: a side assembly (2) to form at least one of the lower side, or base, of the frame structure (1), or the upper side, or cross bar, of the frame structure (1), or a mount, or column member arranged between the base and the cross bar, of the frame structure (1); said side assembly (2) comprisinga track (3) suitable to firmly connect to the ceiling or the floor or a support structure, said track (3) having body extending along a preset first longitudinal extent (X-X); said assembly further comprising a telescopic section bar (4), suitable to be connected to said track (3); said telescopic section bar (4) forming at least one invitation and coupling seat (5) and being suitable to receive a coupling section bar (6) secured to said pane (7); said invitation and coupling seat (5) being defined by a sliding and resting wall (8) that, with an edge (9) thereof, defines a seat opening (10) through which the seat (5) opens to the outside of said telescopic section bar (4); said invitation and coupling seat (5) being defined by a bottom wall (11) comprising a snap-coupling device seat (12) in which a snap-coupling device (18) is received with a base portion (17) thereof so that a body portion (19) thereof projects cantilever in said invitation and coupling seat (5) and, facing said sliding and resting wall (8), forms therewith a coupling slit (20) that, in disengaging conditions, has reduced dimensions going towards said seat opening (10); said body portion (19) of said snap-coupling device (18) having a shape and a material allowing an elastic deformation thereof to snap-receive said coupling section bar (6) in said coupling slit (20) so that an undercut (16) provided for in said coupling section bar (6) is coupled by the mutual action of the snap-coupling device (18) and the sliding and resting wall (8).

The invention relates to a dry-built ceiling/wall, having a framework (1) and one or more construction panels (2) fixed to an associated upright profile (4), wherein the construction panels (2) are fixed to the respective upright profile (4) with the interposition of fastening elements (5) and to this end the fastening element (5) is equipped for example with lug ends (6) that grasp profile limbs (4a) of the upright profile (4). In addition to the at least two lug ends (6) for final fixing, the fastening element (5) is also equipped with one or more hooks (7) for pre-fixing the fastening element (5) to the respective profile limb (4a) of the upright profile (4).

A partition system has at least one pivot joint, each pivot joint having two pivot structures with partial circular cross-sections centered on a pivot axis. Each pivot structure engages with one of a plurality of wall panels and permits the engaged wall panel to pivot about the pivot axis. A linking structure extends between and joins the two pivot structures. A stop member extends outwardly from the linking structure to limit a range within which the wall panels can pivot about the pivot axis. Each of the wall panels has a pair of parallel tabs extending substantially perpendicularly from at least one end face of the wall panel. At least one parallel tab has an end flange extending inwardly toward the second tab. The end flange snap fit onto one of the pivot structures. Each of the wall panels is pivotally connected to the at least one pivot joint.