A standing seam metal panel for a roof cover system has upstanding symmetrical sides defining lateral edges. A trough extends between the lateral edges. Each lateral edge comprises an angled portion, a vertical portion, and first and second horizontal portions. The angled portion extends upward and outward from the trough. The vertical portion extends upward from the angled portion and generally perpendicular to the trough. The first horizontal portion extends inward from the vertical portion and generally parallel to the trough. The second horizontal portion extends above, outward from, and generally parallel to the first horizontal portion. The lateral edges are formed by bends in the metal panel that define the portions of the lateral edges. The lateral edges are adapted to form a sidelap with a lateral edge of an adjacent the metal panel in the cover system. The sidelap is formed on panel clips of the cover system.

A mounting device or clamp is provided that can be secured to a roof joint without damaging the roof joint. Two roof panels can be joined at a roof joint that extends away from the roof. The clamp has a body with a slot to receive the roof joint. An insert of the clamp is rotatable relative to the body from a first position to a second position. The clamp body can be positioned over the roof joint, and the insert can rotate or pivot from the first position to the second position relative to the body to secure the clamp to the roof joint. In one embodiment, a body of the clamp has a first arm that is concave and the insert has a concave portion to engage the roof joint. Alternatively, in another embodiment, the insert can be connected to the clamp body such that either a first projection or a second projection of the insert faces a roof joint.

A roof ridge and hip ridge vent system for contoured roofs which include a vent slot located through the roof structure. A contoured roofing material forms the roof surface. Vent strips are provided on the roof surface that extend on each side of the vent slot. The vent strip is comprised of synthetic fibers that are randomly aligned into an open web by an air flow and then joined by a phenolic or latex binder to form an air permeable mesh material having a generally uniform thickness, a density of about 0.08 to 0.1 grams per cubic centimeter (1.3 to 1.6 grams per cubic inch), and a crush recovery of at least 80%. A first longitudinally extending groove extends from the bottom surface about 40% to 60% of a height of the vent strip and is located a distance of at least about 1 inch from a downslope side.

A roof ridge and hip ridge vent system for contoured roofs which include a vent slot located through the roof structure. A contoured roofing material forms the roof surface. Vent strips are provided on the roof surface that extend on each side of the vent slot. The vent strip is comprised of synthetic fibers that are randomly aligned into an open web by an air flow and then joined by a phenolic or latex binder to form an air permeable mesh material having a generally uniform thickness, a density of about 0.08 to 0.1 grams per cubic centimeter (1.3 to 1.6 grams per cubic inch), and a crush recovery of at least 80%. A first longitudinally extending groove extends from the bottom surface about 40% to 60% of a height of the vent strip and is located a distance of at least about 1 inch from a downslope side.

A metallic roof material 1 according to the present invention comprises: a front substrate 10 made of a metal sheet, the front substrate 10 comprising a body portion 100 formed into a box shape; a back substrate 11 arranged on a back side of the front substrate 10 so as to cover an opening of the body portion 100; and a core material 12 filled between the body portion 100 and the back substrate 11, the metallic roof material 1 being tightened to a roof base by driving at least one tightening member into the body portion 100, wherein a top plate portion 101 of the body portion 100 comprises at least one protruding rib 3 comprised of at least one protrusion 30 disposed along a side of a polygon or along a circle, and wherein the metallic roof material 1 is configured such that the tightening member is driven into an inner region 3a of the protruding rib 3.

A metallic roof material 1 according to the present invention comprises: a front substrate 10 made of a metal sheet, the front substrate 10 comprising a body portion 100 formed into a box shape; a back substrate 11 arranged on a back side of the front substrate 10 so as to cover an opening of the body portion 100; and a core material 12 filled between the body portion 100 and the back substrate 11, the metallic roof material 1 being tightened to a roof base by driving at least one tightening member into the body portion 100, wherein a top plate portion 101 of the body portion 100 comprises at least one protruding rib 3 comprised of at least one protrusion 30 disposed along a side of a polygon or along a circle, and wherein the metallic roof material 1 is configured such that the tightening member is driven into an inner region 3a of the protruding rib 3.

The invention relates to a modular metal covering for buildings, consisting of successive metal sheets (1) which are interconnected by means of joining corresponding bends in the edges thereof, said connections being supported and fastened on supports (2), a lower groove (6) determining the bending of the edges of the metal sheets (1), wherefrom a vertical section extends, ending in a downward-oriented upper break, wherefrom one of the bends extends upwards, successively determining a bowed wing (9), a horizontal section (10) and a vertical section (11), while the other bend extends from the upper break with a wing (12) defining a domed shape; each support (2) comprising a body in the form of a column which determines structures to which said bends of the metal plates (1) are fitted.

The invention relates to a modular metal covering for buildings, consisting of successive metal sheets (1) which are interconnected by means of joining corresponding bends in the edges thereof, said connections being supported and fastened on supports (2), a lower groove (6) determining the bending of the edges of the metal sheets (1), wherefrom a vertical section extends, ending in a downward-oriented upper break, wherefrom one of the bends extends upwards, successively determining a bowed wing (9), a horizontal section (10) and a vertical section (11), while the other bend extends from the upper break with a wing (12) defining a domed shape; each support (2) comprising a body in the form of a column which determines structures to which said bends of the metal plates (1) are fitted.

A functional roof construction arrangement for a roof frame of a building, includes a plurality of functional roof modules being assembled together. Each of the functional roof modules includes a module housing and a roof functional unit which includes three different roof functional panel units selectively supported by the module housing at different levels thereof to provide different functions for the building. The roof functional panel units are selectively configured for selectively providing multiple functions of solar energy collection, thermal insulation, sound insulation, wireless network system, and the like.

A functional roof construction arrangement for a roof frame of a building, includes a plurality of functional roof modules being assembled together. Each of the functional roof modules includes a module housing and a roof functional unit which includes three different roof functional panel units selectively supported by the module housing at different levels thereof to provide different functions for the building. The roof functional panel units are selectively configured for selectively providing multiple functions of solar energy collection, thermal insulation, sound insulation, wireless network system, and the like.