A method of fastening an edge structure to a construction element includes providing the construction element, being a planar structure with with two cover regions and a middle region between the cover regions; providing the edge structure being continuously extended, the edge structure having contact surfaces with a thermoplastic material shaped to lie against the cover regions in an outer surface of the construction element, and, opposite the contact surfaces, a coupling-in surface for coupling energy into the edge structure; coupling energy into the edge structure and pressing the contact surfaces against the cover regions until at least a portion of the thermoplastic material is liquefied and pressed into the cover regions; and repeating or continuing the steps of coupling and pressing until the edge structure is attached to the building element at a plurality of discrete locations or over an extended region along an edge of the construction element.

The invention relates to a system for feeding a coating material from a modular unit to a coating device, said modular unit (40-42) being provided for the storage and provision of preferably roll-type or coil-type coating material units, in particular edge strips (K) for applying to a narrow side of panel-type workpieces (W) and said feed system having: a feed section (20) for holding and transporting the coating material; a cassette unit (25) for guiding the coating material provided by the feed section (20); at least one mobile modular unit (40-42); and a coupling section (30) for coupling the mobile modular unit (40-42) to the feed section (20), the modular unit (40-42) holding coating material units.

A method for adaptation of dimensions of lightweight furniture panels having an internal honeycomb structure includes the steps of severing an edge strip of the panel with the structurally stable edge zone necessary for stability of the panel; cutting off the honeycomb structure flat in each case along the inner surfaces of the two outer panels; clearing out the honeycomb structure, which has been loosened by the flat cutting-off action, between the two outer panels; supplying a structurally stable replacement strip board; coating the two inner surfaces of the coating panels of the lightweight panel and/or the two outer surfaces of the structurally stable replacement strip board; pressing together the components; severing a residual strip exceeding the intended size of the processed panel from the size-adapted lightweight panel.

A device and a method for machining a workpiece are provided, wherein said workpiece includes segments of wood, wood-based materials, synthetic material or the like, having a first milling tool for contour machining an edge attached to said workpiece, a second milling tool for contour machining the edge attached to said workpiece, which is adjustable in relation to said first milling tool between a resting position, in which said first milling tool is engageable with the workpiece, and a machining position, in which said second milling tool is engageable with a workpiece. The device is characterized by a third milling tool for flush milling a narrow side of the edge attached to said workpiece, the three milling tools being arranged coaxially to each other and all are jointly drivable by one device.

Processes for bonding lignocellulosic substrates without an added adhesive are described. The processes of the invention may include exposing the surfaces of the lignocellulosic substrate to a rapid heating source to cause one or more physical, chemical, or other modifications on the surface of the substrate. As a result of the modifications, the surfaces may form a bond with another substrate under elevated temperatures and pressures, for example, produced by a means for pressing such as a conventional hot press used in the woodworking arts. The processes allow a variety of composites such as wood materials for use in the furniture making or construction industries to be manufactured. As the processes forgo the need for petroleum-based adhesives, they are more environmentally sound and occupationally safe than prior art wood product manufacturing methods. Additionally, composite materials made by the processes of the invention are described.

A method to produce a veneered element, including providing a first layer of a first powder and applying a second layer of a second powder above the first layer. Further the method includes applying a veneer layer above the second layer. Thereafter heating and pressing the first layer, the second layer and the veneer layer together to form the veneered element and forming a bevel at least partly along at least one side portion of the veneered element, where the first layer, the second layer and the veneer layer are at least partly exposed in the bevel.

A door pressing system for pressing interior passage doors, exterior entry doors, bi-fold doors, and/or closet doors features a multi-door pressing station including first and second presses, a loading device, and a discharging device. The pressing station is configured to alternatively move the first and second presses into operative alignment with the loading and discharging devices. The press in operative alignment delivers a pressed assembled door to the discharging device and receives an assembled door layup to be pressed from the loading device. The other press that is out of operatively alignment presses an assembled door received therein. Additional methods and systems are also provided.

Disclosed is a method for connecting a connecting face of an edge material to a connecting face of a workpiece by a synthesis element, including the steps: of making available the workpiece, feeding the synthesis element, which is made available by at least one function film composed of an adhesive, activating the adhesive function film, applying the synthesis element to one of the connecting faces, connecting the synthesis element to the other of the connecting faces, wherein the workpiece and the edge material are connected by the synthesis element located between them. Furthermore, there is disclosed a synthesis element and a device for connecting a connecting face of an edge material to a connecting face of a workpiece.

The invention relates to a device for the heating a functional layer of coating material, such as a surface coating or an edge strip, in particular for applying the coating material onto an area of a workpiece, comprising a microwave source, an applicator and a microwave channel for supplying the microwave radiation generated in the microwave source to the applicator, wherein a microwave field is generable in the applicator on account of the supplied microwave radiation, wherein the applicator has at least one material channel, which passes through the applicator and through which the coating material can be fed such that the functional layer of the coating material is heated in the microwave field within the applicator.

The present disclosure relates to a method for producing a plate-shaped workpiece. The method can include providing a plate-shaped raw workpiece, dividing up the raw workpiece to form one or more workpieces, applying a strip-shaped coating material to one or more narrow surfaces of the at least one workpiece, and machining the at least one workpiece. The method can be performed such that at least one wide surface is printed in a first digital printing process and at least one narrow surface provided with the strip-shaped coating material is printed in a second digital printing process. Further, the first and second printing processes can be performed after division of the raw workpiece.