A method includes: mounting a rail on a wall; mounting a fixture on the rail by interlocking a channel of the fixture to the rail; removing the fixture from the rail; and mounting a replacement fixture on the rail by interlocking a channel of the replacement fixture to the rail. An apparatus has: a rail with a wall contacting base side, an exterior side, and a beam formed on the exterior side; a fixture with a base side, an exterior side, and a channel formed on the base side; and in which the channel forms a female profile that reversibly interlocks via a snap fit to a male profile formed by the beam to reversibly mount the fixture on the rail, with respective longitudinal axes of the beam and the channel extending in respective axial directions along the rail. The fixture and rail may retain a panel over the substrate.

A masonry support apparatus supports a wall of brick or other masonry material in a building, provides a thermal break between the wall and a concrete floor of the building, and secures insulation material between the wall and the floor. The masonry support apparatus comprises an elongated longitudinally extending support member, at least one insulation bracket assembly extending rearwardly from the support member for securing an insulation block, and at least one concrete anchor extending rearwardly from the insulation bracket assembly for securing to a concrete floor. The support member, insulation bracket assembly and concrete anchor are permanently joined together to form a unitary structure.

A modular water-resistant paneling system and method is configured for being retrofitted into walls of existing finished basements or buildings and/or used in new construction, using components fastenable onto wall studs supporting drywall. The components include dimensionally stable water-resistant panels, and finishing strips having a backing flange and an upper lip portion sized and shaped to receive upper edge portions of the panels therein. The backing flange is fastenable to the wall studs while maintaining the panels in spaced relation therefrom, to maintain interior facing surfaces of the panels and drywall flush with one another. The upper lip portion includes opposing flanges configured for superposed engagement with adjacent portions of the interior facing surfaces of the panels and drywall. Mounting clips are sized and shaped for receiving a stud therein, and have a support flange for supporting lower edge portions of the panels.

A fitting includes a first mounting portion connectable with a first member and having opposing planar surfaces and inner and outer ends. A second mounting portion is angled with respect to the first mounting portion, is connectable with a second member and has opposing planar surfaces, an outer end and an inner end integrally formed with the first mounting portion inner end. A boss projects outwardly from the second mounting portion first surface and is disposeable within a recess of the second member or a stiffener coupled with the second member. The boss has an inner end adjacent to the second mounting portion inner end, an outer end spaced from the inner end, a centerline between the boss inner and outer ends, and an outermost surface spaced from the second mounting portion first surface by a spacing distance having a value greater than zero at all points along the centerline.

The present invention relates generally to the field of general building construction, comprised predominantly of panel-shaped supporting and non-supporting elements. These panel-shaped components are used for interior construction, e.g., for covering walls, ceilings and/or fabricating lightweight walls. Connecting elements are used during the assembly of such wall components. The present inventive connecting element is suitable for connecting several such wall components with each other, thereby greatly simplifying the assembly of wall components above all with respect to handling, and increasing the stability of such a wall. For this reason, the inventive connecting element has two U-shaped profiles offset to each other, which can accommodate at least two wall components, preferably plasterboards, whose narrow sides abut against each other. The non-positive connection between the connecting element and a wall component is established according to the invention using pop rivets or the known drywall screws.

A retention clip for use with a panel system has a base plate having a pair of opposing flanges at least one of which is configured for attaching to a support structure. An upright extends between the base plate and a top plate having a pair of opposing flanges and defines opposing first and second surfaces that in use are dimensioned to engage opposing first and second ends of a pair of first and second adjacent panels. At least the first surface supports a spacer element that is configured to prevent mutual abutment of opposing ends of the first and second panels at least during construction of the panel system.

A securing member includes a fixing portion that is fixed to a framework; a supporting portion that projects from the fixing portion and supports an exterior material; a first engagement portion that is disposed on the supporting portion so as to extend in a first direction and engages with the exterior material; a second engagement portion that is disposed on the supporting portion so as to extend in a second direction, which is opposite to the first direction, and engages with the exterior material; a first contact portion that is disposed in the first direction from the supporting portion and contacts a back surface of the exterior material; and a second contact portion that is disposed in the second direction from the supporting portion and contacts the back surface of the exterior material. The second contact portion is formed in a folded portion that is folded toward the supporting portion.

Provided is a modular building interior and exterior material unit which is combined to neighboring modular building interior and exterior material units to be used as an interior and exterior material in a building. The modular building interior and exterior material unit includes a pair of vertical frames which are symmetric, spaced apart from each other, and include seating frames at the side thereof which are protruded in a longitudinal direction, wherein the seating frames comprise seating grooves formed therein, at least one panel attached to the outside of the pair of vertical frames, at least one clip including one end combined to the side of the vertical frame and the other end inserted into a through hole formed on the vertical frame of the other neighboring modular building interior and exterior material unit, and gaskets which are protruded in a longitudinal direction along each side of the pair of vertical frames, combined to the seating grooves, and are formed of an elastic material. When the neighboring modular building interior and exterior material units are connected to each other by using the clip, the gaskets combined to each modular building interior and exterior material unit may tightly contact each other and seal the space between the neighboring modular building interior and exterior material units.

Provided is a modular building interior and exterior material unit which is combined to neighboring modular building interior and exterior material units to be used as an interior and exterior material in a building. The modular building interior and exterior material unit includes a pair of vertical frames which are symmetric, spaced apart from each other, and include seating frames at the side thereof which are protruded in a longitudinal direction, wherein the seating frames comprise seating grooves formed therein, at least one panel attached to the outside of the pair of vertical frames, at least one clip including one end combined to the side of the vertical frame and the other end inserted into a through hole formed on the vertical frame of the other neighboring modular building interior and exterior material unit, and gaskets which are protruded in a longitudinal direction along each side of the pair of vertical frames, combined to the seating grooves, and are formed of an elastic material. When the neighboring modular building interior and exterior material units are connected to each other by using the clip, the gaskets combined to each modular building interior and exterior material unit may tightly contact each other and seal the space between the neighboring modular building interior and exterior material units.

The invention relates to a cladding system (100) for a wall (1), having a plate-shaped cladding element (50) which can be connected on two opposite longitudinal or transverse sides to a respective fastening profile (10), wherein the fastening profile (10) is designed to anchor the cladding system (100) on the wall (1), wherein the cladding element (50) has, on the two longitudinal or transverse sides arranged in operative connection with a fastening profile (10), in each case a preferably strip-shaped fastening portion (60, 62) which interacts with a complementary, groove-shaped receiving portion (16, 18) on the fastening profile (10), wherein the two receiving portions (16, 18) on the fastening profile (10) are arranged on the fastening profile (10) on the side opposite to a fastening surface (14) for the wall (1) on the fastening profile (10), wherein the first receiving portion (16) extends at least substantially parallel to the fastening surface (14) or to abase surface portion (64) of the cladding element (50), and the second receiving portion (16) is arranged at an oblique angle (a), preferably between 50 degrees and 60 degrees, very particularly preferably about 45 degrees, to the fastening surface (14) or to the base surface portion (64).