The panel includes a water resistant barrier layer secured atop its outward facing surface. The water resistant barrier layer includes a skid resistant surface. The panels are made of lignocellulosic material. The water resistant and skid resistant surface may include indicia for aligning strips of tape or for aligning fasteners. A method for manufacturing the water resistant building panels is also disclosed and includes the steps of feeding paper onto a forming belt, depositing lignocellulosic material and the binding agent onto the forming belt so as to form a lignocellulosic mat, applying heat and pressure so as to impart the skid resistant surface on the paper, and cutting panels to predetermined sizes.

Floor covering, made of floor elements, which, at least at two opposite sides, comprise a male and a female coupling part, which allow that two of such floor elements can be interconnected at the respective sides at the respective sides by pushing one of these floor elements with the associated male coupling part, by means of a downward movement, home into the female coupling part of the other floor element, wherein at least one of said coupling parts, either the male coupling part or the female coupling part, is made as least partially in a filled synthetic material composite, such as extruded wood.

A fence panel construction device includes a structural member and a pair of post members coupled to the structural member. Each post member includes a pair of attachment devices configured to removably attach a pair of fence stringers to the pair of post members. A pair of actuator mechanisms are coupled to a respective one of the pair of post members to position the pair of post members corresponding to a pair of fence posts on a property. A finishing assembly is coupled to the structural member and includes at least one fastening device and at least one trimming device both operable to move vertically. The finishing assembly is operable to move horizontally while the at least one fastening device fastens fence boards to the pair of fence stringers and at least one trimming device trims the fence boards. A method of making a fence panel is provided.

A fire rated door includes a core, a first decorative panel and a second decorative panel. The core includes: (a) a fire resistant center panel having a bottom, a top, a first side, a second side, a first end and a second end, wherein the fire resistant center panel is made of a first fire resistant material, and (b) an extruded fire resistant border attached to the first side, the second side, the first end and the second end of the fire resistant center panel, wherein the extruded fire resistant border is made of a second fire resistant material having a higher density than the first fire resistant material. The first decorative panel is attached to the top of the fire resistant center panel and the extruded fire resistant border. The second decorative panel is attached to the bottom of the fire resistant center panel and the extruded fire resistant border.

A cost-effective and expeditious method for attaching a water channel layer to lath pre-installation, for subsequent application to an inner wall structure, increasing the efficiency and decreasing the cost of building construction, and also encompasses the stock material made thereby. In one form, there is a stapling frame equipped to be placed in juxtaposition to a water channel layer atop a layer of lath on and adjacent surface. A plurality of staplers mounted to the frame then combine the water channel layer and lath to form an integrated stock material that can then be used in a wall structure.

The present invention relates to a modular panel for thermal energy transfer particularly configured for being used in ceilings and walls, comprising a heat-insulating layer (2) forming a supporting structure demarcated by a lower face (2A), an upper face (2B), two side faces (2C, 2D) and two end faces (2E, 2F). Said panel (1) comprises at least one conducting plate (3) attached to the lower face (2A). Said conducting plate (3) is formed by a groove (31) embedded in the heat-insulating layer (2), defining a longitudinal cavity (32) which is configured to house a hydraulic pipe (6), and defining a longitudinal opening (34) which allows inserting the hydraulic pipe (6); a transfer plate (35) extending on the lower face (2A) and closure means (4) configured to seal the longitudinal opening (34) and press the hydraulic pipe (6) against the groove (31).

Floor panels include: an upper face, a lower face and two pairs of opposite side edges; a base coat layer, a primer layer, at least one decorative layer and a wear-resistant layer are applied at least to a press skin on the upper face; a base coat layer and a counteracting layer are applied to the lower face of the core; the upper face and the lower face of the core have the press skin that arose during pressing; the base coat layer has at least partly penetrated into the press skin on the upper face; the primer layer is arranged between the base coat layer and the decorative layer; the wear-resistant layer contains corundum particles and cellulose fibers; the decorative layer consists of a water-based paint; connecting mechanism and locking mechanism are attached to the side edges in order to connect and lock a plurality of panels without glue.

A frame design and a sheathing design for a design model may be produced by the systems and methods described herein. A processor in communication with a database may receive a design model comprising building specifications. The processor may define a panel in the design model and generate the frame design and the sheathing design for the panel.

A preassembled display system is assembled at a first location by attaching a plurality of display panels to a frame. The preassembled display system is loaded onto a transportation vehicle. Next, the preassembled display system is moved to a second location in a transportation vehicle. The display unit is installed at the second location by attaching the preassembled display system to a mounting unit. A receiver box for providing media to display at the plurality of display panels is attached. The attaching of the receiver box may be performed at the first location and/or at the second location. The plurality of display panels are electrically connected to the receiver box. Again, the electrically connecting may be performed at the first location and/or at the second location.

A method of and an apparatus for making a composite material is provided. The composite is able to be formed by mixing a binder and a physical property enhancing material to form a mixer. The binder is able to be pitch, such as mesophase pitch. The physical property enhancing material is able to be fiber glass. The mixer is able to be processed through a lamination process, stabilization/cross-link process, and carbonization. The composite material is able to be applied in the field of electronic components and green technology, such as a substrate of a photovoltaic cell.