System and method for producing resilient planks are described. A die punch press is provided to receive and die punch resilient slabs into planks. Die punching the resilient slabs into plural planks can sometimes create a deformity on at least one bottom edge of the plank. The planks are then automatically conveyed from the die punch press to a shaping tool. The shaping tool receives individual planks and forms at least one bevel in the respective plank removing the deformity. The planks can then be stacked and prepared for shipping.

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.

System and method for producing resilient planks are described. A die punch press is provided to receive and die punch resilient slabs into planks. Die punching the resilient slabs into plural planks can sometimes create a deformity on at least one bottom edge of the plank. The planks are then automatically conveyed from the die punch press to a shaping tool. The shaping tool receives individual planks and forms at least one bevel in the respective plank removing the deformity. The planks can then be stacked and prepared for shipping.

An edge band cutting device includes a base reciprocated along a direction parallel to a conveying path between a front cutting position and a rear cutting position, a baffle component disposed to the base and having a baffle configured to be reciprocated along a direction parallel to the conveying path between an initial position and a compression position, and reciprocated along a direction perpendicular to the conveying path between a lifting position and a lowering position, and a cutting component disposed to the base and having a saw blade configured to be reciprocated up and down along a cutting path perpendicular to the conveying path. By operation of the baffle component and the cutting component, only one saw blade is used to cut a front protrusion and a rear protrusion of an edge band, such that the structural design is greatly simplified.

The present disclosure relates to a controller-based machine tool system configured for machining a flat elongated workpiece. The controller-based machine tool system includes a tool assembly having a spindle for machining a customized design pattern in the flat elongated workpiece. A spindle motor is configured to provide rotational power to the spindle. A power assembly is configured to provide linear movement of the spindle and a spindle control unit is configured for controlling the power assembly. A controller is electrically connected to the spindle control unit, wherein the controller is configured to generate a customized design pattern for the flat elongated workpiece. An infeed station and an outfeed station are configured to linearly move the flat elongated workpiece.

A joining system for furniture is provided. The joining system comprises a first furniture element and a joining element. The joining element has a width between a first and a second surface in the area of the second engaging portion. An increase in the width causes a first engaging portion to press harder on a first stabilizing portion which causes a male coupling portion to bend in a direction towards the surface comprising the second stabilizing portion to compensate for the increased width.

A method for manufacturing panels such that the panels include a substrate and a decorative top layer. The decorative top layer has one or more lateral edges. The method includes the step of machining at least one of the lateral edges of the decorative top layer by a rotating milling cutter. The axis of the rotating milling cutter is tilted concerning the lateral edge in a first plane comprising the decorative top layer to thereby form a first angle with the normal of the lateral edge and/or is tilted in a second plane perpendicular to the lateral edge to thereby form a second angle with the first plane.

A machining device (10) for machining a workpiece (11) that preferably consists at least in parts of wood, wood materials, plastic or the like, comprising at least one machining unit (13, 14) with a tool device (21) for machining the workpiece (11), a sensor device (15) for contactless detection of a surface (16) of the workpiece (11) to be machined, wherein the tool device (21) can be controlled to carry out a machining operation based on a detection result of the sensor device (15).

A method for squaring and edge-banding panels is described, with the steps of: loading a panel onto a member rotatable about a vertical rotation axis; rotating the rotatable member with predefined angular steps until it completes a complete revolution, sequentially stopping the panel in front of N processing work-stations, N>=2, arranged in a circular array around the rotatable member, wherein, during the rotation of the rotatable member, the panel is always held vertical; as the panel is stopped at the N work-stations, processing the panel edges using panel edge processing units installed at the N work-stations; and unloading the processed panel from the rotatable member.

The method enables high production rates in limited spaces.