A marking device for marking a truss element of a truss may include a print mechanism arranged to print selected truss information on lumber elements moving on a conveyance system passed the print mechanism, the selected truss information including one of an element identifying truss diagram, a truss plate location, and an intersecting member identifier, a position sensing device configured to sense the position of the lumber relative to the print mechanism, and a computing component, the computing component including a geometry extraction module for extracting the geometry of the element to be marked, an element marking generator for generating print instructions for the selected truss information, a position sensing module for interfacing with the position sensing device to ascertain the position of the lumber element, and a print control module for controlling the print mechanism to print the selected truss information.

A structural support beam for use in buildings, bridges, mechanical frames and the like to resist bending due to gravitational and external forces comprising a top substantially flat flange disposed in fixed spaced relationship relative to a bottom substantially concave flange by an interconnecting web and a lower stabilizing brace disposed to engage the opposite end portions of the bottom substantially concave flange and the opposite end portions of the interconnecting web to reinforce the interconnection therebetween.

A structural support beam for use in buildings, bridges, mechanical frames and the like to resist bending due to gravitational and external forces comprising a top substantially flat flange disposed in fixed spaced relationship relative to a bottom substantially concave flange by an interconnecting web and a lower stabilizing brace disposed to engage the opposite end portions of the bottom substantially concave flange and the opposite end portions of the interconnecting web to reinforce the interconnection therebetween.

A truss setting bracket and a method relating to setting a truss using the truss setting bracket are disclosed herein. In some embodiments, the truss setting bracket includes an elongated body member having a first cradle, a second cradle, an elongated catch guide, and a locking arm. In other embodiments, the truss setting bracket includes an elongated body member having a first cradle, a bracket, an elongated catch guide, and a locking arm. In yet other embodiments, the method of setting the truss may include sliding the truss setting bracket over a member of a first truss, lifting the first truss towards a second truss, and removably locking the truss setting bracket to a member of the second truss.

In carrying out a loft conversion some way has to be found of reinforcing the triangular timber roof trusses so that the internal bracing can be removed, to make the space. In the invention this is done by fixing C-sections to the outline of the triangular trusses, preferably sandwiching the timber frame. For the C-sections to overlap at the corners, part of one flange, e.g., the upper flange of the horizontal beam, is removed, and then the beams are bolted onto the frame. The process can be carried out with minimal disruption to the roof as no transverse (longitudinal) reinforcement is needed. A dormer process can also be included, making use of a versatile reinforcement plate.

In carrying out a loft conversion some way has to be found of reinforcing the triangular timber roof trusses so that the internal bracing can be removed, to make the space. In the invention this is done by fixing C-sections to the outline of the triangular trusses, preferably sandwiching the timber frame. For the C-sections to overlap at the corners, part of one flange, e.g., the upper flange of the horizontal beam, is removed, and then the beams are bolted onto the frame. The process can be carried out with minimal disruption to the roof as no transverse (longitudinal) reinforcement is needed. A dormer process can also be included, making use of a versatile reinforcement plate.

Apparatus for forming wooden members used to assemble wooden trusses includes a control computer receiving a batch list identifying each member included in each trusses. A first conveyor transports wooden members from an infeed chute to a finger-jointer joining wooden members end-to-end. A saw cuts the joined wood, and a second conveyor transports cut wooden members past a face printer for printing a component identifier on the face of such member, and past an edge printer for printing identifying assembled truss information upon an edge of selected members. A sensor detecting a member approaching the printers provides a signal to the control computer to synchronize printing by the face printer and to synchronize printing by the edge printer. The face printer and edge printer may be oriented perpendicular to each other. A related method is also disclosed.

A structural support beam for use in buildings, bridges, mechanical frames and the like to resist bending due to gravitational and external forces comprising a top substantially flat flange disposed in fixed spaced relationship relative to a bottom substantially concave flange by an interconnecting web and a lower stabilizing brace disposed to engage the opposite end portions of the bottom substantially concave flange and the opposite end portions of the interconnecting web to reinforce the interconnection therebetween.

A structural support beam for use in buildings, bridges, mechanical frames and the like to resist bending due to gravitational and external forces comprising a top substantially flat flange disposed in fixed spaced relationship relative to a bottom substantially concave flange by an interconnecting web and a lower stabilizing brace disposed to engage the opposite end portions of the bottom substantially concave flange and the opposite end portions of the interconnecting web to reinforce the interconnection therebetween.

The disclosure generally relates to a locating assembly as a component of a locating table segment for positioning truss segments in a truss assembly system. The system generally includes a plurality of table segments aligned in parallel and adapted to position a series of locating blocks on a top surface of the system/table, where each block is a component of one of a plurality of locating assemblies in the system. The block positions collectively define an outer boundary of a support truss (e.g., as a roofing truss). Once the blocks are moved to their desired position, appropriately sized truss segments are placed within the block-defined boundary and fastened together.