A connector arrangement for a flashing assembly for use in a roof window arrangement is disclosed. It comprises a base connector element, an elevation element and a top connector element. Both connector elements have a gutter in their exterior side, and the gutter is open at one end so that water can drain out of it. An attachment section on the interior side of the base connector element is configured for being attached to a bracket used for connecting a roof window to a load-bearing structure, and the elevation element supports the top connector element so that it is positioned above the base connector element. In the mounted state the second end of the top connector element is arranged above the gutter of the base connector element and their length directions extend substantially in parallel to each other. A method for weather proofing a roof window arrangement is also disclosed.

Flashing for use at the edge of roofs or decks that are provided with surface materials are presented. In exemplary embodiments, flashing may be provided at the edge of a roof to retain or provide an edge treatment for an aesthetic and functional surface material, such as, for example, a cast paver, while at the same time allowing for water drainage. In one embodiment, a piece of flashing material contains a leg that is fastened along the edge of the top of a flat roof. This embodiment continues into two legs that form a V-shaped trough which comes off the roofing membrane and has penetrations at the bottom to release water. The outer leg of the “V” most commonly extends to a level higher than the roofing membrane in order to make contact with and edge an installed surface material. Various other shapes and end treatments, including various embodiments providing both an edge flashing as well as an integrated rectangular shaped gutter-like trough are also presented.

A modular platform for configuring gutter guard systems is disclosed and claimed herein. The modular platform includes a number of interchangeable components that can be assembled to form a gutter guard system for use with specific rain gutters based on a rain gutter's style, size, color, and attachment mechanism used to secure the rain gutter to a structure and/or roofline. One such interchangeable component is a rear receiver. A rear receiver can be arranged for use with a gutter guard system that includes a main body. In one embodiment, a rear receiver includes an upper member with a first downwardly angled edge; a lower member with a second downwardly angled edge; and a vertical member connecting the upper member to the lower member. The upper member, lower member, and vertical member form a channel to accommodate and secure the rear receiver to a main body in a gutter guard system.

A gutter debris preclusion device for use with a gutter attached to a building, comprising a support structure being substantially rigid and having a recess with a plurality of apertures and a plurality of ribs; a screen having a plurality of apertures and being at least partially disposed on the ribs of the support structure; and, wherein a cross-sectional profile of the screen has an arc shape.

A rain gutter installation device including an expandable rain gutter support and hoist member. The device is constructed to have a transverse cross-sectional area sufficiently large enough to accommodate the sizes and shapes of conventional gutters. The device can include at least one first trough and at least one second trough movable relative to the first trough. The device may expand from about 6 to about 20 feet in length, whereby a considerable length of gutter may be supported in the desired mounting orientation and the likelihood of excessive twisting of the ends of the gutter during hoisting is minimized. As a result, a single installer can install gutter lengths of up to about 60 feet without the assistance of one or more additional installers.

A guttering kit or assembly comprising at least one gutter piece and at least one mounting bracket for mounting the gutter piece to a surface, wherein the gutter piece comprises an elongate drainage channel and one or more mounting parts, each of the one or more mounting parts comprising an extending part that extends from, and away from, an external side wall portion of the drainage channel at least to a pair of lock pieces that extend from, and away from, the extending piece and away from each other; and the mounting bracket comprises a mounting member for mounting to the surface, and a pair of opposing slots, each of the opposing slots being formed by a respective slot forming member, each slot forming member comprising a spacing portion that extends obliquely or perpendicularly away from the mounting member to an end portion that extends obliquely or perpendicularly from the spacing portion so as to form the slot between the end portion and the mounting member; and wherein respective slots of the pair of opposing slots of the mounting bracket accommodate or are configured to receive respective lock pieces of the pair of lock pieces to mount the gutter piece to the mounting bracket.

An improved gutter flashing is disclosed. The gutter flashing can be installed on a preexisting fascia board of a building, and is compatible with the installation gutter hangers, leaf protection devices, and pre-existing drip edges or gutter flashing. The gutter flashing can be installed without placing additional holes for screws, nails or other securing devices other than the attaching devices that attach the gutter to the fascia board. The gutter flashing comprises a lower spacer portion, a substantially vertical arm with a substantially u-shaped spacing portion to receive the lower angled leg of the preexisting drip edge. Diverter arm rests on top of the roof portion of the preexisting drip edge and extends into approximately the midline of the gutter to divert water away from the structure and into the gutter.

A facia saving gutter system comprising a gutter attached to a building, a fastener passing through the gutter and into the building, a ferule around the fastener and a fascia saver around the ferrule and contacting the back wall of the gutter to prevent water from seeping down the ferule, through a fastener hole in the back wall of the gutter and into a gap between the gutter and the building. The fascia saver has a truncated cone body of elastic material with a center cavity through the truncated cone body along a longitudinal axis of the truncated cone body, the truncated cone body with a longitudinal slit through the truncated cone body.

A facia saving gutter system comprising a gutter attached to a building, a fastener passing through the gutter and into the building, a ferule around the fastener and a fascia saver around the ferrule and contacting the back wall of the gutter to prevent water from seeping down the ferule, through a fastener hole in the back wall of the gutter and into a gap between the gutter and the building. The fascia saver has a truncated cone body of elastic material with a center cavity through the truncated cone body along a longitudinal axis of the truncated cone body, the truncated cone body with a longitudinal slit through the truncated cone body.

A gutter debris preclusion device for use with a gutter attached to a building, comprising a support structure being substantially rigid and having a recess with a plurality of apertures and a plurality of ribs; a screen having a plurality of apertures and being at least partially disposed on the ribs of the support structure; and, wherein a cross-sectional profile of the screen has an arc shape.