Building panels, especially floor panels are shown, which are provided with a locking system that is configured to lock the adjacent edges by angling and that have a tongue and a strip on the same edge, and a method to divide a board and produce such building panels. A method for dividing a floor element, into a first floor panel and a second floor panel, said floor element including a core provided with a decorative surface layer and a balancing layer, wherein the method includes the step of forming, through the balancing layer or the decorative surface layer, a second groove by displacing the floor element past a fixed tool.

Building panels, especially floor panels are shown, which are provided with a locking system that is configured to lock the adjacent edges by angling and that have a tongue and a strip on the same edge, and a method to divide a board and produce such building panels. A method for dividing a floor element, into a first floor panel and a second floor panel, said floor element including a core provided with a decorative surface layer and a balancing layer, wherein the method includes the step of forming, through the balancing layer or the decorative surface layer, a second groove by displacing the floor element past a fixed tool.

A method for forming grooves in a board element. An exemplary method includes arranging the board element in contact with a support member, and forming at least one groove in a rear side of the board element by removing material, such as chips, from the board element by rotating one or more cutting devices including a plurality of tooth elements configured to rotate around a rotational axis. A method further includes counteracting, such as preventing, a displacement of the board element away from the support member during forming of the at least one groove, wherein the counteracting, such as preventing, includes arranging at least a portion of the board element between an obstruction element and the support member.

A method for forming grooves in a board element. An exemplary method includes arranging the board element in contact with a support member, and forming at least one groove in a rear side of the board element by removing material, such as chips, from the board element by rotating one or more cutting devices including a plurality of tooth elements configured to rotate around a rotational axis. A method further includes counteracting, such as preventing, a displacement of the board element away from the support member during forming of the at least one groove, wherein the counteracting, such as preventing, includes arranging at least a portion of the board element between an obstruction element and the support member.

Sheet material includes at least two layers of material, wherein a first layer of material forms more than half the thickness of the sheet material and is mainly built up from wood particles glued by means of a first binder and pressed. The first binder is thermosetting, wherein the second layer of material is present on the surface of the aforementioned sheet material and is mainly built up from particulate particles glued by a second binder and pressed. The second binder is thermoplastic and/or elastomeric.

A method for manufacturing composite wood floor includes a step of obtaining top layers, a step of coloring, a step of applying adherent, a step of forming composite unit, a step of machining, and a step of applying protection layer. The tissues of the top layers infiltrated with colors, and the colored top layers are combined with at least one base material to form a composite solid wood floor. The solid wood floor is easily maintained to remove scratches.

An enclosure assembly includes a pan that includes at least one shaft opening. A shroud at least partially surrounds the pan. The shroud extends transversely relative to the pan. A skirt surrounds a perimeter of the shroud and is moveable relative to the shroud.

A rotor assembly for a floor processing machine includes at least three arms that extend outward from a central axis. Each of the at least three arms include a first surface opposite a second surface and are rigidly fixed from movement relative to each other. A spindle has a proximal end located adjacent the first surface on each of the at least three arms. A distal end has a shaft attachment opening. A distal end of each of the at least three arms include a tool head attachment surface.

A rotor assembly for a floor processing machine includes at least three arms that extend outward from a central axis. Each of the at least three arms include a first surface opposite a second surface and are rigidly fixed from movement relative to each other. A spindle has a proximal end located adjacent the first surface on each of the at least three arms. A distal end has a shaft attachment opening. A distal end of each of the at least three arms include a tool head attachment surface.

A method for producing an ultra-stable and enhanced solid wood flooring for under-floor heating via surface compression technique includes: subjecting, while subjecting a solid wood to surface compression and enhancement, the solid wood to primary stabilization treatment by controlling a temperature of a hot pressing plate to obtain a compressed enhanced solid wood; putting the compressed enhanced solid wood into a heat treatment tank; and subjecting the compressed enhanced solid wood to secondary stabilization treatment by controlling a pressure and a temperature of steam or air in the heat treatment tank and a treatment time to obtain a finished product. The ultra-stable surface-compressed enhanced solid wood flooring produced by the method features high dimensional stability, low set-recovery after water absorption, and desired moisture and heat resistance.