A ventilation screed comprising: an attachment flange having a top portion and a bottom portion; a drip edge protruding from the attachment flange and a return leg that protrudes back from the drip edge, wherein the drip edge is angled downward in a first direction and the return leg is angled downward in a second direction; a drainage cavity protrusion protruding from the attachment flange above the drip edge, wherein the drainage cavity protrusion has an L-shaped drainage trough portion having at least one drainage opening in a bottom portion and a substantially vertical portion with a top end and a bottom end in communication with the bottom portion, an upper ground portion in communication with the top end of the substantially vertical portion of the L-shaped drainage trough portion extending outward from the substantially vertical portion and a drainage cavity shroud extending substantially downward from the upper ground portion.

A facade panel screw for the optimized fastening of facade panel elements on a substructure has a head with very large diameter D.sub.K, a substantially cylinder cross-sectional shaft, which is at least partially provided with a thread (nominal diameter D.sub.S) and a conical tip comprising a tip angle γ. The thread extends continuously from the shaft to the tip. It is characterizing that the tip angle γ is 45°+/−10°, the thread is embodied at least in a two-threaded manner, the head diameter D.sub.K is embodied at least twice as large as the nominal diameter D.sub.S; and the facade panel screw does not have a drill tip. Such a facade panel screw is used in a fastening arrangement, which comprises a load-bearing component (substructure) and a facade panel. Due to its design, the facade panel screw is able to simplify the fastening of the facade panel and to at least partially correct an inclined positioning in response to the installation.

Electromagnetically shielding an enclosable structure having a floor, walls, a ceiling, and at least one closeable opening by applying a shielding wallcovering to at least a portion of one of the walls and applying a second type of shielding material to at least a portion of the enclosable structure, wherein the second type of shielding material differs from the shielding wallcovering. The shielding wall covering is wallpaper comprising a metal-coated broad good and a resin. Other types of shielding material may include a transparent, shielding window covering such as NiCVD coated screen of woven silk fibers; shielded flooring such as a layered combinations of Kevlar non-woven as a base layer, nickel-coated non-woven layers, and a PCF toughened polymer; and a transition shielding strip made of a base layer of the shielding wallpaper with a PCF toughened polymer coating over a portion of the strip.

A wood or manufactured wood-composite based siding used on concrete wall or concrete masonry unit (CMU, or block) construction (including, but not limited to, insulated concrete form construction) with an integrated rainscreen feature. The rainscreen feature or component is applied to, or integrated into or with, the back of the siding (i.e., the inner surface) during the manufacturing process, or in a secondary process thereafter. The features may include raised elements, strips, ridges, or wedges, with one or more channels or spaces. No job-site assembly is required, thereby reducing time and cost.

Methods and associated apparatuses are described herein that provide a tile alternative material. The tile alternative material may be manufactured by providing a substrate that defines a first surface, and a second surface opposite the first surface. The second surface is configured to be secure, via an adhesive or otherwise, to a support surface. The method further includes coating an exterior layer on the first surface of the substrate, and forming a pattern element in the first surface of the substrate. Forming the pattern element includes removing material from the substrate and the coated exterior layer of the first surface to form one or more recessed portions.

Some embodiments include an exterior insulated finish wall assembly including an exterior panel member, an insert member, and a drainage channel. The exterior panel member includes a rigid insulative substrate and a base coat selectively disposed on the rigid insulative substrate. The rigid insulative substrate includes a body portion and a tail portion extending from the body portion. A recess is defined by a sloped surface and a back surface of the tail portion. The insert member is configured to be disposed within the recess. The insert member is sized and shaped to correspond to the recess. The insert member includes a rigid insulative substrate and a base coat selectively disposed on the rigid insulative substrate. The drainage channel is defined between the tail portion and the insert member.

An exterior wall or roof of a building comprises an inner sheathing member having an exterior facing surface, an outer building material installed adjacent and covering the exterior facing surface of the inner sheathing member, and a spacer secured between the inner sheathing member and the outer building material. The spacer is a continuous length of material formed by at least a first parallel set of ribs extending diagonally relative to a second parallel set of ribs thereby forming an openwork lattice structure. The first set of ribs forms a front face of the material, the second set or additional set of ribs forms a rear face of the material, and the first and second set of ribs are interconnected intermediate of the front and rear faces. Each of the first and second set of ribs extend diagonally relative to horizontal and vertical directions within the wall or roof.

An object of the present invention is to provide, for use in living environments, a decorative sheet that has excellent, easy cleanability and excellent impact resistance and from which dirt due to the adherence of a daily used contaminant, such as fine particle powder, that is not easy to clean is easily removed. The present invention provides a decorative sheet having a surface-protecting layer on the uppermost surface thereof, wherein (1) Ra(i)/Ra(ii) is 0.62 or more and 1.63 or less, the Ra(i)/Ra(ii) being calculated using an arithmetic average roughness Ra(i) measured along an arbitrary direction on the surface of the surface-protecting layer, and an arithmetic average roughness Ra(ii) measured along the perpendicular direction to the arbitrary direction.

A vented and water control paneling has improved drainage and integrated ventilation air space. The water control paneling may be fabricated with an omnidirectional relief pattern formed on its back surface. The relief pattern spaces the vented and water control paneling away from a structure to which it is secured, thereby providing an omnidirectional drainage plane between the back surface of the paneling and the structure. The omnidirectional drainage plane provides an unimpeded ventilation and drainage path of water and/or water vapor.

A facade panel conditioning system for installation on a new or existing building is disclosed. The system includes modular panels, a structural anchor, hydronic piping, and ductwork. The panels attach to each other around the exterior of the building forming an insulated shell. The anchor attaches the panels to the building structure forming an air cavity between each individual panel and the exterior. The hydronic piping transfers heat to the air cavity and individual units of the building. The ductwork delivers ventilated air and exhaust air to the air cavity and individual units. The hydronic piping of a panel connects to the hydronic piping of an adjacent panel forming a hydronic piping system that distributes heat or cool throughout the shell. The air duct of a panel connects to the air duct of an adjacent panel forming an air duct ventilation system that distributes air throughout the shell.