A prefabricated steel-wood composite joint includes square pipe columns, steel-wood composite beams, and a beam-column connecting assembly for connecting the square pipe columns and the steel-wood composite beams. Each square pipe column includes connecting corner columns and connecting side plates. Each steel-wood composite beam includes a top flange, a bottom flange and wood webs for connecting the top flange and the bottom flange. The beam-column connecting assembly is a central column connecting assembly or a corner column connecting assembly. By a special structural design, the composite joint realizes effective beam-column connection without a welded connection and a bolted connection and has tenacity and good seismic performance. The components of the composite joint can be prefabricated in a factory, are high in precision and are assembled on site, so that construction is easy and convenient, procedures are simplified, and the construction period is effectively shortened.

The present invention relates to using interlocking spacer braces between support members to construct wood and metal framed walls, floors and building trusses. Spacer braces have indentations, extensions, with hook fingers, hook tongues and hook receivers along with U & W shaped clips that interlock horizontally, vertically or diagonally between support members. The spacer braces can form diagonal and lateral wall bracing, diagonal and vertical chords within building truss with either horizontally or vertical orientations, headers above doors and windows and shear walls. The spacer braces can be installed individually or in tandem between wood or metal framing.

The present invention relates to using interlocking spacer braces between support members to construct wood and metal framed walls, floors and building trusses. Spacer braces have indentations, extensions, with hook fingers, hook tongues and hook receivers along with U & W shaped clips that interlock horizontally, vertically or diagonally between support members. The spacer braces can form diagonal and lateral wall bracing, diagonal and vertical chords within building truss with either horizontally or vertical orientations, headers above doors and windows and shear walls. The spacer braces can be installed individually or in tandem between wood or metal framing.

A supporting structure (102) for a wall or a roof partition (104; 120) of a building structure (100), comprises an internal core structure (114) extending in a longitudinal direction, and first and second external covering profiles (106) for at least partially covering the core structure (114). The covering profiles (106) define inwardly and outwardly facing surfaces (108) facing one another, with slits (116) being formed at the inwardly facing surfaces (108). The core structure comprises at least two bands of material (114) which are mutually offset. The supporting structure (102) is suitable as a post, pillar, column, lath, batten, rafter, truss, girder, bar, or beam for a wall or roof partitions of a greenhouse, a cabin or shanty, a wall of a house, a stand-alone wall or roof partition, such as pent roof, a canopy, a fence, a windbreak or a solar panel structure The bands of material (114) are interconnected at their ends only and are pre-tensioned to provide stiffness, and may be configured to minimize their thermal conductivity.

A supporting structure (102) for a wall or a roof partition (104; 120) of a building structure (100), comprises an internal core structure (114) extending in a longitudinal direction, and first and second external covering profiles (106) for at least partially covering the core structure (114). The covering profiles (106) define inwardly and outwardly facing surfaces (108) facing one another, with slits (116) being formed at the inwardly facing surfaces (108). The core structure comprises at least two bands of material (114) which are mutually offset. The supporting structure (102) is suitable as a post, pillar, column, lath, batten, rafter, truss, girder, bar, or beam for a wall or roof partitions of a greenhouse, a cabin or shanty, a wall of a house, a stand-alone wall or roof partition, such as pent roof, a canopy, a fence, a windbreak or a solar panel structure The bands of material (114) are interconnected at their ends only and are pre-tensioned to provide stiffness, and may be configured to minimize their thermal conductivity.

The invention relates to a formwork support (10) for supporting concrete formworks in the construction sector, comprising an upper flange (12) and a lower flange (14), which are connected to one another via a hollow profile web (16) such that they are at an invariant distance in relation to one another, wherein the hollow profile web (16) is stiffened inside by framework struts (28a, 28b).

A system or method for a structural mine roof support includes a roof support apparatus that includes a cylindrical cladding defining a hollow interior, a plurality of bamboo sections disposed in the hollow interior and coaxial with an axis of the cylinder. Also, a roof support apparatus with a cylindrical cladding defining a hollow interior, a plurality of bamboo sections disposed in the hollow interior and coaxial with an axis of the cylinder, and voids between adjacent bamboo sections, the voids being injected with a filler material, e.g., polyurethane foam, to maintain axial positioning of the bamboo sections when under load. The support apparatus configured to load and to yield in a predetermined fashion to control a mine roof from sudden failure.

Disclosed herein is a method of manufacturing a modular building structure. A plurality of structural truss modules are provided. Each one of the structural truss modules includes a spaced pair of elongated wood chords and a web connecting the elongated wood chords. The web including a plurality of metal support rods each having a pair of opposed threaded sections. The first of the pair of opposed threaded sections engaged to a first one of the elongated wood chords at an angle thereto. The second of the pair of opposed threaded sections engaged to the other one of the elongated wood chords at an angle thereto. The structural truss modules are cut to a predetermined length. A first member is connected between the spaced pairs of elongated wood chords. First ends of the plurality of structural truss modules are configured to connect to a ledger member.

A folding slab and a central column composite joint and an assembly method thereof, wherein the folding slab and a prefabricated column-beam composite joint adopting a steel-wood composite structure guarantees a construction quality, improves a construction efficiency, and optimizes a seismic performance of a structure. The folding slab and the central column composite joint including a steel-wood composite column, square wood columns, connecting assemblies for connecting the steel-wood composite column and the square wood beams, and folding wood slabs connected with and supported by the steel-wood composite column, the square wood columns and the connecting assemblies.

This invention refers to a structural system for floor and roof construction, based on a parallel arrangement of a set of composite pre-tensioned girders to provide support to a deck formed by layers of any given material. The composite girders are components formed by lengths of bamboo culms, steel components and fillings of mortar or other materials, arranged in such way that a maximum mechanical efficiency is obtained.