A gutter guard for retaining a gutter and for covering an opening of the gutter provided. The gutter has a front wall and a rear wall and the opening is defined by a top edge of the front wail and the top edge of the rear wall. The gutter guard includes a front portion for operatively engaging the front wall of the gutter, a rear portion having an upwardly and rearwardly extending hook member for retaining the rear wall of the gutter and an upstanding member fastenable to an upstanding support structure, and a central portion extending between the front portion and the rear portion and having a plurality of throughholes formed therein. The gutter guard may be multi-layered, having a first sheet member and a second sheet member that are spaced apart and having non-aligned throughholes. A gutter guard kit can include at least one gutter guard and a gutter that are operatively engageable with one another.

A gutter assembly utilizing a latch actuated bottom release door. This bottom debris release door allows built-up debris, snow, and the like to be quickly and effectively removed from the gutter such that conventional clearing and cleaning methodologies are not necessary. The latch mechanism utilized can be conveniently actuated from the ground using an extension pole or the like. Optionally, an electronic release mechanism can be provided. The gutter assembly of the present invention can be used with a variety of conventional or custom bracings, end caps, downspouts, connectors, corner pieces, etc., well known to those of ordinary skill in the art, and can be installed like any conventional gutter. All components of the gutter assembly can be extruded, molded, three-dimensional (3-D) printed, or the like.

A gutter hanger for hanging a rain gutter on the fascia board of a structure or building. The gutter hanger includes an elongated horizontal top member connected to a downwardly extending back member. A bore for a fascia screw extends from a bump in the inner surface of the back member the outer or back surface of the back member or leg. The bump includes a bearing surface generally perpendicular to the axis of the bore. The gutter hanger also includes an upwardly extending protrusion to engage the lip of the gutter. The top member also includes a threaded bore hole to accept a screw, so that the top member may be attached to the top front of the gutter with a threaded fastener.

A universal gutter hanger assembly includes a hanger body having a front end and a back end. A front attachment feature at the front end of the hanger body is configured to engage with a front end of the gutter. A back attachment feature at the back end is configured to engage with a back end of the gutter. The back attachment includes a clip extending upwardly from the back end and configured to engage with gutters having various configurations of back ends. In some examples, the hanger body includes an arcuate-shaped bottom surface that extends from the front end to the back end.

A self-supporting gutter guard device is described having a bridge member composed of a decking material having a plurality of orifices, and having a roof side and an opposing gutter lip side, at least one groove disposed in the decking material altering a profile of the deck material to outline a 3-dimensional geometry that spans the bridge member from a proximal end of the bridge member's roof side to a proximal end of the bridge member's gutter lip side, a roof attachment member configured to attach to the roof side of the bridge member, and a gutter attachment member configured to attach to the gutter lip side of the bridge member, wherein the 3-dimensional geometry of the at least one groove enables the device to be self-supporting.

A self-supporting gutter guard device is described having a bridge member composed of a decking material having a plurality of orifices, and having a roof side and an opposing gutter lip side, at least one groove disposed in the decking material altering a profile of the deck material to outline a 3-dimensional geometry that spans the bridge member from a proximal end of the bridge member's roof side to a proximal end of the bridge member's gutter lip side, a roof attachment member configured to attach to the roof side of the bridge member, and a gutter attachment member configured to attach to the gutter lip side of the bridge member, wherein the 3-dimensional geometry of the at least one groove enables the device to be self-supporting.

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.

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.

A roofing debris collection apparatus having one or more gutter liners constructed to fit in an interior of a gutter to collect roofing debris; one or more debris chute drapes; and one or more drape support poles to maintain the debris chute drapes in a vertical angled orientation adjacent the gutter to guide roofing debris from a roof to the ground. Roofing debris is allowed to accumulate in the gutter liners or to fall off the roof on to the debris chute drapes and to slide from the debris chute drapes onto a tarp on the ground. The roofing debris is collected and removed by collecting the gutter liners from the gutter and gathering the tarp from the ground. The roofing debris collection apparatus allows for rapid collection and removal of roofing debris and protects the sides of a building from any damage that might be caused by the collection of roofing debris.

A roofing debris collection apparatus having one or more gutter liners constructed to fit in an interior of a gutter to collect roofing debris; one or more debris chute drapes; and one or more drape support poles to maintain the debris chute drapes in a vertical angled orientation adjacent the gutter to guide roofing debris from a roof to the ground. Roofing debris is allowed to accumulate in the gutter liners or to fall off the roof on to the debris chute drapes and to slide from the debris chute drapes onto a tarp on the ground. The roofing debris is collected and removed by collecting the gutter liners from the gutter and gathering the tarp from the ground. The roofing debris collection apparatus allows for rapid collection and removal of roofing debris and protects the sides of a building from any damage that might be caused by the collection of roofing debris.