A modular platform for configuring gutter guard systems is disclosed and claimed herein. Such gutter guard systems are designed and arranged to be positioned across the opening of a rain gutter to prevent debris from entering the rain gutter. The modular platform includes a number of interchangeable components. Select interchangeable components can be assembled to form a gutter guard system for use with a specific rain gutter based on the rain gutter's style, size, color and the mechanism used to secure the rain gutter to a structure and/or roofline. In one embodiment, the components of a modular platform for configuring gutter guard systems include a number of main bodies, a front receiver, a number of rear receivers, a number of screens, and a clip.

A modular platform for configuring gutter guard systems is disclosed and claimed herein. Such gutter guard systems are designed and arranged to be positioned across the opening of a rain gutter to prevent debris from entering the rain gutter. The modular platform includes a number of interchangeable components. Select interchangeable components can be assembled to form a gutter guard system for use with a specific rain gutter based on the rain gutter's style, size, color and the mechanism used to secure the rain gutter to a structure and/or roofline. In one embodiment, the components of a modular platform for configuring gutter guard systems include a number of main bodies, a front receiver, a number of rear receivers, a number of screens, and a clip.

The method includes dispersing copper or other material ions through the water receiving area of a gutter guard for the prevention of moss or mold growth. The method includes the utilization of thread(s) sewn into or embroidered onto or otherwised affixed to or immediately preceding the water receiving areas of a gutter guard, such thread(s) being comprised of moss killing materials. The thread(s) comprise only a portion of the water receiving area, so if corrosive elements form and wash over the water receiving area, they will be in sufficient amounts to kill moss but not in so great an amount as to clog any water receiving apertures. The method includes the utilization of staples or other objects comprised of copper or other moss killing materials fastened to or adhered or welded to the body or water receiving areas of a gutter guard or areas immediately preceding such.

The method includes dispersing copper or other material ions through the water receiving area of a gutter guard for the prevention of moss or mold growth. The method includes the utilization of thread(s) sewn into or embroidered onto or otherwised affixed to or immediately preceding the water receiving areas of a gutter guard, such thread(s) being comprised of moss killing materials. The thread(s) comprise only a portion of the water receiving area, so if corrosive elements form and wash over the water receiving area, they will be in sufficient amounts to kill moss but not in so great an amount as to clog any water receiving apertures. The method includes the utilization of staples or other objects comprised of copper or other moss killing materials fastened to or adhered or welded to the body or water receiving areas of a gutter guard or areas immediately preceding such.

A new protective polymeric sheet is described wherein said polymeric sheet includes perforations and attached spacers that allow air and water circulation when the sheet is in use. The sheet protects underlying structures from damage while ensuring moisture migration between the protective polymeric sheet and the underlying structure. The protective polymeric sheet comprises a plurality of perforations extending through the sheet and a plurality of spacers, each spacer extending from a lower surface of the sheet adjacent to one side of each perforation. The spacers are created during perforation of the polymeric sheet. The protective polymeric sheet is useful in a number of applications, including without limitation: to protect pipelines; to replace geotextiles in heap leach processes; to line sandboxes and paving stones; to cover greenhouse floors; to make industrial or residential gutter caps; and as a filter.

A new protective polymeric sheet is described wherein said polymeric sheet includes perforations and attached spacers that allow air and water circulation when the sheet is in use. The sheet protects underlying structures from damage while ensuring moisture migration between the protective polymeric sheet and the underlying structure. The protective polymeric sheet comprises a plurality of perforations extending through the sheet and a plurality of spacers, each spacer extending from a lower surface of the sheet adjacent to one side of each perforation. The spacers are created during perforation of the polymeric sheet. The protective polymeric sheet is useful in a number of applications, including without limitation: to protect pipelines; to replace geotextiles in heap leach processes; to line sandboxes and paving stones; to cover greenhouse floors; to make industrial or residential gutter caps; and as a filter.

A drip edge with gutter guard support device is formed from a longitudinal sheet of waterproof material. An angled upper first member integrally joined to a vertical lower second member form an angled structure. The first member is configured for placement on a roof edge and under a roof shingle and the second member is a configured for placement to a fascia, the lower portion of the second member being configured for placement over a a gutter's back end. Vertically stacked ledges extend outwardly from the second member into an opening of the gutter. Separations between adjacent ledges form varying height receiving channels for placement of a roof-side end of a gutter guard. The device is a single piece drip edge and gutter guard fascia-side attachment device.

A drip edge with gutter guard support device is formed from a longitudinal sheet of waterproof material. An angled upper first member integrally joined to a vertical lower second member form an angled structure. The first member is configured for placement on a roof edge and under a roof shingle and the second member is a configured for placement to a fascia, the lower portion of the second member being configured for placement over a a gutter's back end. Vertically stacked ledges extend outwardly from the second member into an opening of the gutter. Separations between adjacent ledges form varying height receiving channels for placement of a roof-side end of a gutter guard. The device is a single piece drip edge and gutter guard fascia-side attachment device.

A covering having insulated panels is meant to prevent or slow the spread of fire. Each panel has a top cover; a fire-prevention layer having a fire-retardant material, a fire-resistant material, or a combination of both; and an insulation layer. The fire-prevention layer is located, at least partially, between the top cover and the insulation layer. When there are two or more insulated panels, they interlock at a joint and form a plane.

A cover for a gutter system, the cover having opposing cover ends and opposing cover edges. The cover may include a grid segment that is operatively coupled to a front segment and/or a rear segment. The grid segment may include a primary set of ribs and a secondary set of ribs. The front segment and/or the rear segment may have one or more channels that aid in bending a portion of the cover during installation. Adjacent covers may be operatively coupled through the use of one or more couplings (e.g., projections, cavities, or the like), which also allow for thermal expansion and/or contraction of the covers when installed. Furthermore, corner strips (e.g., inner corner strips, outer corner strips, or the like) having angled slots may be utilized to assemble adjacent covers at the corners where gutters meet. The angled slots allow the covers to be assembled flush within corner strips.