Disclosed is a terrace canopy constructed from a support pillar provided with a cavity for discharging precipitation incident on the terrace canopy towards a ground surface and at least two beams, each of which provided with a gutter for discharging precipitation incident on the terrace canopy to an end face of the beam. A headboard is attached to the end face of the beams. A corner connection element is fixedly attached to the support pillar and to the headboards. The corner connection element is provided with one, or preferably, a plurality of support legs extending towards the support pillar.

Disclosed is a terrace canopy constructed from a support pillarprovided with a cavity for discharging precipitation incident on the terrace canopy towards a ground surface and at least two beams , each of which provided with a gutter for discharging precipitation incident on the terrace canopy to an end face of the beam. A headboard is attached to the end face of the beams. A corner connection elementis fixedly attached to the support pillar and to the headboards. The corner connection element is provided with one, or preferably, a plurality of support legs extending towards the support pillar.

A gutter marking template set includes a right-handed gutter marking template and a left-handed gutter marking template, each including a template frame having a first template frame surface and a second template frame surface. The template frame may include a main frame member having a first main frame member end and a second main frame member end. A first frame member may be carried by the main frame member and may have a first frame member surface extending between and at a cut angle with respect to the first template frame surface and the second template frame surface. A second frame member may be carried by the main frame member in spaced-apart relationship to the first frame member. The second frame member may have a second frame member surface extending between and at the cut angle with respect to the first template frame surface and the second template frame surface and parallel to the first frame member surface. A first frame notch may be provided at the first main frame member end of the main frame member. A second frame notch may be provided at the second main frame member end of the main frame member. A spanning frame member may extend between the first frame member and the second frame member and in spaced-apart relationship to the main frame member.

A rain gutter system, including a gutter, and a debris cover, and a method of manufacturing the gutter and the debris cover, wherein the gutter includes a front wall and a back wall interconnected through a bottom and spaced-apart to cooperatively define a water-collecting channel therebetween, the front wall including a lip extending in the direction toward the back wall and a drip edge extending in a direction away from the back wall, the back wall extending upward vertically beyond the height of the front wall. In further embodiments, the rain gutter system includes at least one hanger, and the at least one hanger is positioned in the channel of the gutter, spaced-apart from the bottom. The debris cover allows water to penetrate the debris cover, is attached on top of the gutter at a desirable pitch, and includes a mircomesh.

A waterfall gutter system comprises a top tubular pipe above and separated from a semi-circular channel or trough where the pipe and trough are separated through the use of various brackets, connectors, corner connectors, downspouts, and end caps. The various brackets, connectors, corner connectors, downspouts, and end caps having a top opening for receiving the pipe and a bottom opening for receiving the trough where the openings are separated to provide proper spacing.

The invention relates to a rain gutter assembly including a gutter (10) and a moving arrangement (16). The moving arrangement (16) is configured to move at least part of the gutter (10) between an operative or rain gathering position and an inverted or discharge position.

The invention relates to a rain gutter assembly including a gutter (10) and a moving arrangement (16). The moving arrangement (16) is configured to move at least part of the gutter (10) between an operative or rain gathering position and an inverted or discharge position.

The present concept is a gutter insert designed to fit within the corner section of an eaves trough. The gutter insert includes a substantially horizontal bottom wall which includes an arcuate back periphery, and an inner peripheral edge and an upstanding back wall rigidly connected to the horizontal bottom surface at the arcuate back periphery of the horizontal bottom wall, wherein the upstanding back wall together with the horizontal bottom wall define a first and a second transverse edge, which include a first and second upstanding edge respectively. The horizontal bottom wall is configured to lie adjacent to a base of the corner section of an eaves trough and extends between the inner sidewall and an outer sidewall of corner section of an eaves trough at the first and second transverse edges. The inner peripheral edge is configured to lie substantially adjacent an inner sidewall of the corner section of an eaves trough such that the horizontal bottom wall, the upstanding back wall of the gutter insert, together with an inner side wall of the corner section of an eaves trough form a channel directing the flow of water smoothly around the corner of a corner section of an eaves trough.

A side outlet device suitable for use in combination with a rainhead to form an overflow assembly is adapted to enable the rainhead to be mounted external to the building in relation to a wall of the building, to one side of a box guttering extending interiorly along the wall, whereby water flowing from the roof is able to pass through the side outlet device to a downpipe via the overflow device. The side outlet device has a respective end section at first and second opposite ends, with the first end section having a form corresponding to the form of a box gutter end section such that, with the side outlet device mounted in relation to the wall, the first end section extends through the wall and is receivable in the gutter receptor of the overflow device. The second end section is adapted for connection to the box guttering to enable water to flow from the box guttering and through the side outlet device to the overflow device.

A side outlet device suitable for use in combination with a rainhead to form an overflow assembly is adapted to enable the rainhead to be mounted external to the building in relation to a wall of the building, to one side of a box guttering extending interiorly along the wall, whereby water flowing from the roof is able to pass through the side outlet device to a downpipe via the overflow device. The side outlet device has a respective end section at first and second opposite ends, with the first end section having a form corresponding to the form of a box gutter end section such that, with the side outlet device mounted in relation to the wall, the first end section extends through the wall and is receivable in the gutter receptor of the overflow device. The second end section is adapted for connection to the box guttering to enable water to flow from the box guttering and through the side outlet device to the overflow device.

The present concept is a gutter insert designed to fit within the corner section of an eaves trough. The gutter insert includes a substantially horizontal bottom wall which includes an arcuate back periphery, and an inner peripheral edge and an upstanding back wall rigidly connected to the horizontal bottom surface at the arcuate back periphery of the horizontal bottom wall, wherein the upstanding back wall together with the horizontal bottom wall define a first and a second transverse edge, which include a first and second upstanding edge respectively. The horizontal bottom wall is configured to lie adjacent to a base of the corner section of an eaves trough and extends between the inner sidewall and an outer sidewall of corner section of an eaves trough at the first and second transverse edges. The inner peripheral edge is configured to lie substantially adjacent an inner sidewall of the corner section of an eaves trough such that the horizontal bottom wall, the upstanding back wall of the gutter insert, together with an inner side wall of the corner section of an eaves trough form a channel directing the flow of water smoothly around the corner of a corner section of an eaves trough.