Apparatus and associated methodology contemplating a portable sheet metal folding apparatus that folds a sheet metal panel profile into a different predetermined shape, the profile having straight elements joined together by arcs. The apparatus has consecutive roller die sets configured to perform a series of folds on a first element of the profile toward a second element of the profile. Each roller die set has opposing roller dies operably contacting only the first and second elements, not contacting any arc. The opposing roller dies are arranged to define a minimal gap between them equal to or more than the radius of the arc joining the first and second elements together. The gap provides a material relief space that is sized to clearingly permit the arc to positionally shift during folding to relieve stress and strain.

A fascia board installation accessory includes a plurality of planar segments configured to form a substantially U-shaped configuration and is suitably sized and shaped to fit about a bottom edge of the existing fascia board, and an anchor segment extending outwardly away from the U-shaped configuration and directly abutted against one of an existing roof rafter and an existing roof lookout. The anchor segment is statically and integrally connected to the U-shaped configuration. The U-shaped configuration has a first centrally registered longitudinal axis. The anchor segment has a second centrally registered longitudinal axis oriented non-parallel to the first centrally registered longitudinal axis. The anchor segment has a plurality of apertures juxtaposed side-by-side and centrally aligned along the second centrally registered longitudinal axis.

A fascia board installation accessory includes a plurality of planar segments configured to form a substantially U-shaped configuration and is suitably sized and shaped to fit about a bottom edge of the existing fascia board, and an anchor segment extending outwardly away from the U-shaped configuration and directly abutted against one of an existing roof rafter and an existing roof lookout. The anchor segment is statically and integrally connected to the U-shaped configuration. The U-shaped configuration has a first centrally registered longitudinal axis. The anchor segment has a second centrally registered longitudinal axis oriented non-parallel to the first centrally registered longitudinal axis. The anchor segment has a plurality of apertures juxtaposed side-by-side and centrally aligned along the second centrally registered longitudinal axis.

A boom clamp attachment has a gib frame, a boom quick-connect, a shaft arm axle, a shaft arm torque assembly, and at least one gib clamp assembly. The gib clamp assembly has a clamp support member having a first gib clamp at a first end and second gib clamp at a second end. The gib clamp has a fixed finger and a moveable finger, the moveable finger controlled via hydraulics. The boom clamp may hoist, tilt, and position an assembled section of panels.

A plate advancement mechanism is configured to cooperate with a stack of plates consisting of alternating first and second roofing plates with alternately positioned indexing notches along an indexing edge of the plates. An indexer including at least one indexing tab that projects beneath the indexing edge of the plates reciprocates parallel to the indexing edge of the roofing plates between a first feed position and a second feed position. The indexer first feed position aligns the indexing tab with the indexing notch of the first plates and the indexer second feed position aligns said indexing tab with the indexing notch of the second plates. The indexer first feed position and said second feed position are coordinated with shuttle movement to release the lowermost roofing plate from the stack onto the shuttle by aligning the indexing tab (or tabs) with the indexing notch (or notches) of the lowermost plate.

A plate advancement mechanism is configured to cooperate with a stack of plates consisting of alternating first and second roofing plates with alternately positioned indexing notches along an indexing edge of the plates. An indexer including at least one indexing tab that projects beneath the indexing edge of the plates reciprocates parallel to the indexing edge of the roofing plates between a first feed position and a second feed position. The indexer first feed position aligns the indexing tab with the indexing notch of the first plates and the indexer second feed position aligns said indexing tab with the indexing notch of the second plates. The indexer first feed position and said second feed position are coordinated with shuttle movement to release the lowermost roofing plate from the stack onto the shuttle by aligning the indexing tab (or tabs) with the indexing notch (or notches) of the lowermost plate.

Disclosed herein are roof brackets, devices, and apparatuses for standing seam metal roofs to provide a removable place to place a foot. In one aspect, an apparatus may include a bracket configured to releasably secure to a standing seam of a panel, the bracket having a housing having at least one side comprising a slot configured to allow at least a portion of a standing seam to travel therethrough; a plurality of cams contained within the housing, the plurality of cams rotatably connected to the housing at a first portion of the plurality of the cams; at least one elongated member connected to at least one of the plurality of cams; and at least one tension element connected to the housing and in operable communication with at least one of the plurality of cams. Also disclosed herein are methods for using the disclosed roof brackets and apparatuses.

A roof cutter and a method of cutting a roof is provided. The roof cutter includes a base that is movable between a retracted configuration and a cutting configuration. In the retracted configuration, the blade is displaced from the roof. In the cutting configuration, the blade is positioned so as to facilitate cutting of the roof. The roof cutter includes a stop assembly and an engagement member that is configured to engage with the stop assembly when the base is in the cutting configuration, thereby establishing a maximum cutting depth. A dampening mechanism softens impacts associated with the blade moving to the cutting depth and absorbs vibrations associated with cutting the roof at the cutting depth. An adjustment assembly is configured to selectively adjust the cutting depth and/or to selectively restrain the base in the retracted configuration, thereby preventing the blade from cutting the roof.

A roof cutter and a method of cutting a roof is provided. The roof cutter includes a base that is movable between a retracted configuration and a cutting configuration. In the retracted configuration, the blade is displaced from the roof. In the cutting configuration, the blade is positioned so as to facilitate cutting of the roof. The roof cutter includes a stop assembly and an engagement member that is configured to engage with the stop assembly when the base is in the cutting configuration, thereby establishing a maximum cutting depth. A dampening mechanism softens impacts associated with the blade moving to the cutting depth and absorbs vibrations associated with cutting the roof at the cutting depth. An adjustment assembly is configured to selectively adjust the cutting depth and/or to selectively restrain the base in the retracted configuration, thereby preventing the blade from cutting the roof.

A method of fixing a membrane to a surface is disclosed. The method includes affixing a metallic washer having a heat-activated adhesive layer on a surface; arranging a membrane on top of the surface and the heat-activated adhesive layer of the metallic washer; heating the metallic washer to activate the heat-activated adhesive layer such that the membrane is fixable to the metallic washer; positioning a magnetic clamping heat sink assembly on the membrane; magnetically clamping the magnetic clamping heat sink assembly to the metallic washer causing the magnetic clamping heat sink assembly to apply a force against the membrane when the magnetic clamping heat sink assembly sufficiently overlaps the metallic washer to form a secure bond; and cooling the metallic washer, the heat-activated adhesive layer, and the membrane by removing heat through the magnetic clamping heat sink assembly.