A rafter bracket configured to connect a vertical post to a rafter and beam(s) is described herein. The rafter bracket may include lower vertical side plates, a horizontal plate, and upper vertical side plates. The horizontal plate may be perpendicular to the upper and lower vertical side plates and may separate the upper vertical side plates from the lower vertical side plates. The horizontal plate and lower vertical side plates may create a lower cavity that receives the vertical post. Meanwhile, the rafter may be positioned on one of the upper vertical side plates and positioned between two of the upper vertical side plates and may be angled at an acute angle relative to the vertical post as well as the upper and lower vertical side plates. One or more of the lower vertical side plates may receive lateral plates that define a lateral cavity receiving the beam.

Apparatus and associated method contemplating a roof assembly having a plurality of roof structurals. A rake plate having a panel flange is configured for attaching a roof panel thereto. A fastener connects the rake plate to the building structural. A rake plate retainer has a retention flange defining a fastener opening through which the fastener passes, and defines a standoff boss apart from the fastener that is configured to define a predetermined gap for the rake plate that permits operable movement of the rake plate relative to the building structural.

A rafter bracket configured to connect a vertical post to a rafter and beam(s) is described herein. The rafter bracket may include lower vertical side plates, a horizontal plate, and upper vertical side plates. The horizontal plate may be perpendicular to the upper and lower vertical side plates and may separate the upper vertical side plates from the lower vertical side plates. The horizontal plate and lower vertical side plates may create a lower cavity that receives the vertical post. Meanwhile, the rafter may be positioned on one of the upper vertical side plates and positioned between two of the upper vertical side plates and may be angled at an acute angle relative to the vertical post as well as the upper and lower vertical side plates. One or more of the lower vertical side plates may receive lateral plates that define a lateral cavity receiving the beam.

Two connectors are used to improve a system of wood framing commonly used to form roof and floor assemblies. The first, the end-to-end connector, allows end-to- end connection of secondary members. The joint thus formed acts as a structural hinge which, when properly located, significantly reduces maximum moment and deflection compared to current simple-span conditions. The second, the top mount connector, provides a secure connection between continuous secondary members and the tops of primary members. This connector provides support for the secondary members and, by resisting rotation between the primary and secondary members, provides superior bracing of the primary member. Used together, the connectors provide an new way of supporting members in a structure, that both reduces maximum moment and deflection and resists rotation between the primary members and the secondary members.

A structural connector for fastening structural components together includes a floor. Two spaced sidewalls extend from respective sides of the floor, the floor and the sidewalls defining a channel in which a first of the structural components can be received. The sidewalls are configured so that the sidewalls can be fastened to the first structural component. A positioning arrangement is operatively arranged with respect to the floor so that the floor can be positioned on the second structural component for fastening to the second structural component.

A self-adjusting heel joint connector for securing roof structural members, without the need for a conventional birdsmouth cut or toe-nailing. The connector is slideably insertable between a bottom surface of a preset rafter and the top of a supporting wall plate at a heel joint and is capable of self-adjusting to the precise preset rafter pitch. The connector includes a framing member securable to the top of the supporting wall plate, and a support member rotatably coupled to the framing member and freely rotatable about an axis of rotation perpendicular to a longitudinal axis of the framing member. The framing member is securable to the angled rafter and an adjacent joist/tie member, as well as to the supporting wall plate, at the heel joint, and the rafter is supported by a substantially flat mating surface of the support member which extends in a direction perpendicular to a vertical leg of the framing member. The connector provides restraint from lateral movement and wind uplift, and provides for full vertical rafter load transfer partly through the framing member vertical leg of the connector and partly through the adjacent joist/tie member directly to the top of the supporting wall plate over a uniform distributed area, while transferring thrust force in the rafter to the adjacent joist/tie member. The support member further provides additional support for dead and live loads, while eliminating the need for a conventional birdsmouth cut at the heel joint.

The present application relates to a vessel support beam comprising two or more beam elements wherein each beam element comprises a first and second opposing long side connected by a top side, a lower side and two opposing end sides, said beam elements are arranged parallelly with at least one long side of one beam element facing a long side of another beam element, thereby forming a reactor support beam having a first and second opposing long side surface, a top surface and a lower surface.

An adjustable bracket for raising a patio roof comprising an attachment mechanism attachable to a fascia or eave on a side of a residential structure; a bracket mechanism configured to raise, support, and attach a patio roof member or joist above the fascia or eave; and an adjustment mechanism to provide an adjustment angle of the bracket mechanism relative to the attachment mechanism to accommodate different roof angles.

A building is constructed from a plurality of rectangular wall sections secured to one another. At least some wall sections are formed of an upper and a lower beam, vertical studs extending between the upper and lower beams and a wall panel secured to the beams and to the studs. In the invention, each beam is formed of an elongate metal sheet folded through a right angle about at least one longitudinally extending line to define at least a horizontal first plate, and a vertical second. A plurality of separately formed sheet metal brackets are secured to at least one of the plates of the folded metal sheet at preset distances from one another along the length of the beam and secured to the ends of the studs.

A rafter bracket configured to connect a vertical post to a rafter and beam(s) is described herein. The rafter bracket may include lower vertical side plates, a horizontal plate, and upper vertical side plates. The horizontal plate may be perpendicular to the upper and lower vertical side plates and may separate the upper vertical side plates from the lower vertical side plates. The horizontal plate and lower vertical side plates may create a lower cavity that receives the vertical post. Meanwhile, the rafter may be positioned on one of the upper vertical side plates and positioned between two of the upper vertical side plates and may be angled at an acute angle relative to the vertical post as well as the upper and lower vertical side plates. One or more of the lower vertical side plates may receive lateral plates that define a lateral cavity receiving the beam.