A process for manufacturing wall elements from nailable and/or stapleable materials, in which a wall element frame is positioned on a horizontal worktable. Wall panels are placed on the frame and the wall panels are fastened to the frame by nails and/or staples, which are driven by a compressed air setting device. A mobile robotin particular an autonomous mobile robothas a compressed air setting device and/or at least one milling unit and is movable on the surface formed by the wall panels. The robot motion is automatically controlled along the surface formed by the wall panels. At predetermined positions, the milling unit and/or the compressed air setting device is actuated to process the wall panels and/or to fasten them to the wall element frame.

A method for bevelling veneers (14), in which an edge (26) of the veneer (14) is pressed, by a pressure shoe (44) that extends along the edge, against a base (22) in such a way that the edge projects over the base, and in that a trimming device (28) and a grinding tool (30), which has a grinding surface set at an angle to the plane of the veneer, move along the edge (26) of the veneer such that an edge strip (50) of the veneer is cut-off by the trimming device (28) and the veneer is bevelled by the grinding tool (30).

The present invention relates to a structural joint for attaching two boards by their butts, achieving the correct transmission of forces between them by means of a staggered configuration of the butts thereof to increase the contact surface between both boards, allowing the mutual coupling thereof, both being aligned and coplanar, and at least one of the steps of both boards having a finger profile to further increase the contact surface between both boards.

A movable conveyor 42 of a post-gluing conveyor 33 (sliding extendable roller conveyor) is provided, in a front portion, with a non-driving roller 42d (guiding roller) disposed so as to be inclined toward a reference surface (ruler) 42e at a predetermined angle with respect to a width direction such that a leading end of a veneer is guided toward the reference surface (ruler) 42e (one lateral side) of a movable conveyor 42. When the veneer is detected by a veneer detecting sensor 45 (veneer detecting means), a post-gluing conveyor controller 47 (slide movement control means) retracts the movable conveyor 42 in an extended state, in a contracting direction in a state in which forward rotational driving of a driving roller 42a of the movable conveyor 42 is maintained.

A movable conveyor 42 of a post-gluing conveyor 33 (sliding extendable roller conveyor) is provided, in a front portion, with a non-driving roller 42d (guiding roller) disposed so as to be inclined toward a reference surface (ruler) 42e at a predetermined angle with respect to a width direction such that a leading end of a veneer is guided toward the reference surface (ruler) 42e (one lateral side) of a movable conveyor 42. When the veneer is detected by a veneer detecting sensor 45 (veneer detecting means), a post-gluing conveyor controller 47 (slide movement control means) retracts the movable conveyor 42 in an extended state, in a contracting direction in a state in which forward rotational driving of a driving roller 42a of the movable conveyor 42 is maintained.

This invention relates to a process for the division of an individual input source log into discrete longitudinal lengths for subsequent processing. The process comprises receiving an individual input source log, dividing the input source log into one or a plurality of output log portions of a predetermined length, wherein at least a portion of said output log portions resultant from said division are of a substantially equal or substantially constant or consistent longitudinal length, and wherein said substantially equal or substantially constant or consistent longitudinal length output log portions are procured as a feed stream of log material for a subsequent processing step. This process provides for the processing of logs and subsequent assembly into an end product formed from a composite of sticks derived from said processed logs.

A stud straightener system and method of straightening studs of a wall structure for a modular construction unit. The wall structure has a wall frame including the studs and one or more sheathing panels on a top side of the wall frame. The stud straightener system includes a wall frame conveyor and a stud straightener assembly. The wall frame conveyor is configured to move the wall structure thereon. The stud straightener assembly includes an actuator assembly having an actuator and a carriage tooling assembly having a clamp tooling assembly. The carriage tooling assembly is configured to move along the actuator to one or more of the studs and the clamp tooling assembly is configured to engage the one or more of the studs to straighten the one or more of the studs.

The present disclosure provides a method of making a teak plank. The method comprises steps of (a) preparing a teak scantling (10) by planning a sawn timber; (b) removing a defect (12) from the teak scantling (10); (c) assembling the teak scantlings (10) without defect by means of finger joint and gluing the finger-jointed teak scantlings (20) together by an adhesive to form a lengthen strip (30); (d) laminating the lengthen strips (3) laterally to form a monolayer strip block (40); (e) laminating the monolayer strip blocks (40) vertically to form a multilayer strip block (50); (f) boiling/steaming the multilayer strip blocks (50) to be soften; (g) slicing the top or bottom surface of the multilayer strip block (50) to form a monolayer veneer (60); (h) laminating the monolayer veneers (60) vertically under pressure to form a multilayer veneer block; and (i) ripping the multilayer veneer block lengthwise to form a teak plank (70).

This invention relates to a process for the division of an individual input source log into discrete longitudinal lengths for subsequent processing. The process comprises receiving an individual input source log, dividing the input source log into one or a plurality of output log portions of a predetermined length, wherein at least a portion of said output log portions resultant from said division are of a substantially equal or substantially constant or consistent longitudinal length, and wherein said substantially equal or substantially constant or consistent longitudinal length output log portions are procured as a feed stream of log material for a subsequent processing step. This process provides for the processing of logs and subsequent assembly into an end product formed from a composite of sticks derived from said processed logs.