The set of modular timber hollow bricks with thermal insulation properties includes wooden hollow bricks, marked as A and B which have a box structure. Hollow brick A and corner hollow brick B include two boards connected by crossbars in such a way, that they form a peripheral socket on the inside for a connection with the connector. The corner hollow brick B also has a connector on the side surface of the board. Each hollow brick has a circumferential socket, the size of which corresponds to half the thickness of the connector. The corner hollow brick B has a notch on the lateral surface. The hollow brick A and corner hollow brick B have each an additional reinforcing bar inside. The socket is filled with sealing foam before assembly.

A core layer suitable for a multilayer composite including at least one surface layer and one core layer, the surface layer arranged to at least partially cover the core layer and be fixedly connected thereto, wherein the core layer has elements composed of wood, which elements have plate-like regions arranged in zig-zag-shaped fashion, wherein a plate-like zig region of an element with an adjoining plate-like zag region of the element form a common edge between them, in such a way that the wood element of zig-zag-shaped form is formed, wherein elements of zig-zag-shaped form are arranged in the core layer such that two such edges of two different elements cross one another at a non-zero angle, and wherein the two elements are fixedly connected to one another at the crossing point. In one embodiment, a wood element of zig-zag-shaped form may be adhesively bonded to a planar wood element.

A waste-less cut-less composed wooden panel for a wooden timber buildings construction. Thanks to the use of the steel wood screws positioned in a pattern, the same buckling resistance as in the case of the commercial wooden panels connected by aluminium nails or wood screws has been achieved with a much lower value of the wooden panel thickness, approximately by 30%. Thanks to the manual assembly of individual waste-less cut-less composed wooden panel, up to 82% of wooden material can be saved compared to commercially available prefabricated wooden panels.

Modular wall panels having a frame of a plurality of frame components and at least one wall sheet affixed to the frame. Each frame component includes an outer surface with at least one aperture configured to receive and retain an insert therein. The apertures are also configured to permit a cable(s) to pass therethrough for running cables and such through the interior of the wall panel. The frame components may have angled ends, straight ends, or a combination thereof to collectively form a frame which may include corners. A wall system includes a plurality of such wall panels connected to one another along the outer surfaces of the frame components of their respective frames. Connectors and spacers may be inserted into the apertures as inserts and bridge between adjacent panels to selectively connect the panels. Caps may be placed in empty apertures to cover the openings for aesthetic purposes.

A wall module comprises face panels and stud members connected to and spacing the face panels from one another. End panels are connected to ends of the assembly of the face panels and of the stud members to form a box body with the face panels and the stud members, the box body having an inner cavity. Cross member(s) extend between stud members and/or between the face panels. The body box has an elongated upstanding shape when the assembly of the face panels and of the stud members is vertical, such that the face panels form a wall when a plurality of the wall module are positioned side by side with the stud members of adjacent ones of the wall modules being coplanar. A wall comprises a plurality of the wall modules.

A wall module comprises face panels and stud members connected to and spacing the face panels from one another. End panels are connected to ends of the assembly of the face panels and of the stud members to form a box body with the face panels and the stud members, the box body having an inner cavity. Cross member(s) extend between stud members and/or between the face panels. The body box has an elongated upstanding shape when the assembly of the face panels and of the stud members is vertical, such that the face panels form a wall when a plurality of the wall module are positioned side by side with the stud members of adjacent ones of the wall modules being coplanar. A wall comprises a plurality of the wall modules.

Products and methods for constructing mass timber structures in multi-story configurations using long strand timber (LST) engineered wood products. Structural LST panels of predetermined dimensions are fabricated using LST manufacturing methods, typically involving steam pressing a billet of scrimber material that includes treatment materials and bonding material. The long strands of the material used in the panels are oriented vertically for improved load bearing capacity. The panels are sized for shipment to a job site. Prior to shipment, a plurality of panels are pre-processed by cutting openings for windows, doors, tongues, and grooves at a fabrication plant. At the job site, the LST panels are quickly assembled into a building shell (i.e. full exterior walls). Floor and roof joists are then attached using conventional wood fastening devices, and interior build out can commence very quickly after initial construction of the exterior walls.

Products and methods for constructing mass timber structures in multi-story configurations using long strand timber (LST) engineered wood products. Structural LST panels of predetermined dimensions are fabricated using LST manufacturing methods, typically involving steam pressing a billet of scrimber material that includes treatment materials and bonding material. The long strands of the material used in the panels are oriented vertically for improved load bearing capacity. The panels are sized for shipment to a job site. Prior to shipment, a plurality of panels are pre-processed by cutting openings for windows, doors, tongues, and grooves at a fabrication plant. At the job site, the LST panels are quickly assembled into a building shell (i.e. full exterior walls). Floor and roof joists are then attached using conventional wood fastening devices, and interior build out can commence very quickly after initial construction of the exterior walls.

A board includes at least a substrate which is formed at least of a gypsum-based and/or cement-based basic material layer with a compressive strength of 30 kg/cm2 and a resin-based covering provided on at least one side of the substrate, in the form of a laminate layer directly pressed onto the substrate.

A board includes at least a substrate which is formed at least of a gypsum-based and/or cement-based basic material layer with a compressive strength of 30 kg/cm2 and a resin-based covering provided on at least one side of the substrate, in the form of a laminate layer directly pressed onto the substrate.