A system and method of masonry construction using masonry blocks and anchors, wherein the blocks are laid end to end, and an anchor is inserted between them. The anchor both spaces and secures the blocks, even before mortar is applied. The anchors contain legs recess between the walls of the masonry construction, and create a space for the walls to recess in to on the anchor, thereby providing multi-directional securement of the system. Embodiments of the system also contain grooves for additional securement and complemental engagement of the anchors.

A retaining wall having a plurality of courses of retaining wall blocks including a first upper course and a second lower course. Each retaining wall block has opposed front and rear faces, opposed first and second side surfaces, and opposed and substantially parallel upper and lower surfaces, and at least one weight bearing pad extends from one of the upper and lower surfaces. The at least one weight bearing pad extends substantially from the rear face to the front face of the block. The weight bearing pads are the only areas of contact between the blocks in the first upper course and the blocks in the second lower course.

A floor may include a substrate having a top side and a bottom side. A top layer may be provided on the substrate. The top layer may consist of a printed thermoplastic film and a thermoplastic transparent or translucent layer provided on the printed thermoplastic film. The top layer may be directly adhered to the substrate by heat welding the printed thermoplastic film and the top side of the substrate, in the absence of a glue layer. The substrate may be a synthetic material board including a filler. The substrate at least at two opposite edges may include coupling means provided in the synthetic material board. The thermoplastic transparent or translucent layer may be provided with a structure.

This invention relates to the building art, and more particularly to blocks for the construction of buildings, structures, and hardscaping items, and to a method for assembling building blocks without using mortar. A building block, configured as a parallelepiped, comprises three pairs of opposing faces, including four lateral faces and two faces constituting an upper and a lower bases, each of the faces including a plurality of elements constituting projections and recesses, wherein each of the elements is shaped as a regular pyramid with rounded edges, and the pyramid vertex angle between two opposing faces is within the range from 90 to 179.9 degrees. The projections and recesses are arranged in rows and columns, wherein the pyramid bases at each of the parallelepiped faces are arranged in a single plane which is a face of the parallelepiped, and the respective sides of the pyramid bases are parallel to the parallelepiped faces, wherein the sides of the base of a pyramid that constitutes a projection are adjacent to the respective sides of the bases of adjoining pyramids that constitute the recesses. Projections and recesses at the block faces enable coupling of four blocks, three of which having paired adjacent faces that are perpendicular to each other and in contact at the edges. Also described are various embodiments of the block and of a method for assembling building blocks.

This invention relates to the building art, and more particularly to blocks for the construction of buildings, structures, and hardscaping items, and to a method for assembling building blocks without using mortar. A building block, configured as a parallelepiped, comprises three pairs of opposing faces, including four lateral faces and two faces constituting an upper and a lower bases, each of the faces including a plurality of elements constituting projections and recesses, wherein each of the elements is shaped as a regular pyramid with rounded edges, and the pyramid vertex angle between two opposing faces is within the range from 90 to 179.9 degrees. The projections and recesses are arranged in rows and columns, wherein the pyramid bases at each of the parallelepiped faces are arranged in a single plane which is a face of the parallelepiped, and the respective sides of the pyramid bases are parallel to the parallelepiped faces, wherein the sides of the base of a pyramid that constitutes a projection are adjacent to the respective sides of the bases of adjoining pyramids that constitute the recesses. Projections and recesses at the block faces enable coupling of four blocks, three of which having paired adjacent faces that are perpendicular to each other and in contact at the edges. Also described are various embodiments of the block and of a method for assembling building blocks.

Wall structures and methods of manufacturing wall structures are described. The wall structures include a frame, a foam panel attached to the frame, a brace disposed in a cavity defined by the frame, and a foam layer. The wall structures can impart a high wall racking strength and good thermal performance through the combination of the foam layer, brace, and the foam panels.

A rectangular block having a front surface, a rear surface, a bottom surface, a top surface defined by a pair of lengthwise edges and a pair of side edges connecting the lengthwise edges, the rectangular block including: a first channel disposed along a left side surface, the first channel extending in a direction from the front surface to the rear surface; and a second channel along a plane parallel to the left side surface, the plane disposed at an offset distance from the left side surface, the second channel extending in a direction from the front surface to the rear surface, wherein the left side surface is configured to be positionable so as to mate with a left side surface of an adjacently disposed block to form a full channel to receive a rebar, whereby walls are constructible from a plurality of such blocks.

A rectangular block having a front surface, a rear surface, a bottom surface, a top surface defined by a pair of lengthwise edges and a pair of side edges connecting the lengthwise edges, the rectangular block including: a first channel disposed along a left side surface, the first channel extending in a direction from the front surface to the rear surface; and a second channel along a plane parallel to the left side surface, the plane disposed at an offset distance from the left side surface, the second channel extending in a direction from the front surface to the rear surface, wherein the left side surface is configured to be positionable so as to mate with a left side surface of an adjacently disposed block to form a full channel to receive a rebar, whereby walls are constructible from a plurality of such blocks.

A building system comprising at least one block of claim 1 and further including at least one mortarless side panel including a finished outside surface and at least one dovetail protrusion on an opposing surface for joining the side panel to the at least one blocks, and a connector on each end of the panel for joining the side panel to other side panels, and at least one top cap including a finished top surface.

A structure is disclosed. The structure provides at least one base member, at least one frame member coupled with the at least one base member, and at least one cover coupled with the at least one frame member