Abstract:
A flooring system includes a plurality of individual flooring pieces, such as floor panels, each having a wear surface, an opposing mounting surface and a retention groove disposed within the mounting surface. A floor panel connector used to interconnect at least two of the floor panels has a base, at least one mast extending from an upper surface of the base and a pair of flexible arms. Each flexible arm extends transversely from opposing sides of the at least one mast and has an extending end. Contacting portions extending from a lower surface of the base are configured to engage the support surface and create a spacing between each flexible arm and the support surface to permit each flexible arm to elastically deflect toward the support surface when pressure is exerted on a floor panel. This deflection enables the extending end of each flexible arm to engage the retention groove of a corresponding floor panel.
Abstract:
The invention relates to a fitting for connecting and laying panels, boards or planks on a supporting body, having a main body and a spacer, wherein the main body has at least two fastening devices for connecting the fitting and board and for connecting the fitting and supporting surface, wherein the spacer and main body are arranged predominantly at right angles to one another in the operating state, characterized in that the main body and spacer are connectable together in a releasable manner by a third fastening device.
Abstract:
The invention relates to a building element in plate shape, in particular a floor covering panel, which, apart from a mineral carrier plate or a carrier plate of WPC, comprises an upper side wear layer as well as preferably a lower side levelling layer, as well as to a floor covering formed by using such building elements, and to a method for the arrangement thereof, wherein the side faces thereof comprise a non-locking profile for forming special joints for receiving a material for forming a connection element.
Abstract:
Building panels, such as floorboards, provided with a mechanical locking system. The mechanical locking system includes a displacement groove at a first edge of a first floorboard and a tongue groove at a second edge of a second floorboard. A tongue is arranged in the displacement groove and is configured to cooperate, in a second position, with the tongue groove for vertical locking of the first and the second edge. The tongue includes, in a first position, an inner element and an outer element. The inner element is removable along the displacement groove, and is configured to cooperate with the outer element to obtain a displacement of the outer element towards the tongue groove and thereby obtain the second position. The inner element and the outer element vertically overlap each other.
Abstract:
Building panels, such as floorboards, provided with a mechanical locking system. The mechanical locking system includes a displacement groove at a first edge of a first floorboard and a tongue groove at a second edge of a second floorboard A tongue is arranged in the displacement groove and is configured to cooperate, in a second position, with the tongue groove for vertical locking of the first and the second edge. The tongue includes, in a first position, an inner element and an outer element. The inner element is removable along the displacement groove, and is configured to cooperate with the outer element to obtain a displacement of the outer element towards the tongue groove and thereby obtain the second position. Said inner element and said outer element vertically overlap each other.
Abstract:
Building panels, such as floorboards, provided with a mechanical locking system. The mechanical locking system includes a displacement groove at a first edge of a first floorboard and a tongue groove at a second edge of a second floorboard A tongue is arranged in the displacement groove and is configured to cooperate, in a second position, with the tongue groove for vertical locking of the first and the second edge. The tongue includes, in a first position, an inner element and an outer element. The inner element is removable along the displacement groove, and is configured to cooperate with the outer element to obtain a displacement of the outer element towards the tongue groove and thereby obtain the second position. Said inner element and said outer element vertically overlap each other.
Abstract:
The present invention relates to a joining system comprising a locking device (1) and a first element (2) and a second element (3) to be joined by the locking device (1). The locking device (1) comprises a first end section (4), a centre section (5), and a second end section (6). The first and second end sections (4, 6) extend in opposite directions from the centre section (5), and at least one surface (7) of each of the first and second end sections (4, 6) are provided with at least one barb (8). The barb (8) is angled in a direction towards the centre section (5). The first and second elements (2, 3) are each provided with a groove (9). The locking device (1) is completely enclosed by the grooves (9) when the first and second elements (2, 3) are joined by the locking device (1).
Abstract:
A subfloor component comprises an insulating foam panel having first and second opposing faces and a plurality of intersecting grooves in the first face to define, in cross-section, a plurality of pedestals having at least one wall extending toward the second face, a moisture-resistant layer formed on the first face of the panel that conforms to the pedestals, and a hardboard layer on the second face of the panel.
Abstract:
A system for limiting relative movement (e.g., vertical movement) between adjacent building surface components of an elevated building surface assembly in a manner that is free of securing (e.g., mechanically attaching, such as by threaded fasteners, clips, etc.) the building surface components to an underlying support structure. In one aspect, an elevated building surface assembly includes a plurality of support members disposed in spaced-apart relation on a fixed surface, a plurality of building surface components operatively disposed on the upper portions of the support pedestals, and at least one spline disposed in openings of abutting outer edge segments of first and second adjacent ones of the plurality of building surface components. Each opening extends from a first of a plurality of corner portions of the building surface component to an adjacent second of the corner portions of the building surface component.
Abstract:
A thermoplastic laminate plank is described wherein the thermoplastic laminate plank includes a core, a print layer, and optionally an overlay. The core includes at least one thermoplastic material and has a top surface and bottom surface wherein a print layer is affixed to the top surface of the core and an overlay layer is affixed to the top surface of the print layer. An underlay layer can be located and affixed between the bottom surface of the print layer and the top surface of the core. In addition, a method of making the thermoplastic laminate plank is further described which involves extruding at least one thermoplastic material into the shape of the core and affixing a laminate on the core, wherein the laminate comprises an overlay affixed to the top surface of the print layer and optionally an underlay layer affixed to the bottom surface of the print layer.