초록 ▼

A relatively flat roof of a structure is provided with a restricted flow roof drain assembly. The roof drain assembly includes a roof drain extending through an opening in the roof for receiving water collected on the roof. The drain has a predetermined maximum flow rate capacity. A flow restrictor

A relatively flat roof of a structure is provided with a restricted flow roof drain assembly. The roof drain assembly includes a roof drain extending through an opening in the roof for receiving water collected on the roof. The drain has a predetermined maximum flow rate capacity. A flow restrictor is set on the roof, and surrounds the roof drain. The restrictor has a dam including at least one aperture. The at least one aperture has a variable flow rate capacity which is less than the maximum flow rate capacity of the roof drain.

대표청구항 ▼

We claim: 1. A method for providing flow restrictors for a substantially flat roof with existing roof drains, comprising the following steps: locating an existing roof drain on a substantially flat roof; and setting a flow restrictor directly on the roof, the flow restrictor having a flange with an

We claim: 1. A method for providing flow restrictors for a substantially flat roof with existing roof drains, comprising the following steps: locating an existing roof drain on a substantially flat roof; and setting a flow restrictor directly on the roof, the flow restrictor having a flange with an upwardly extending wall connected thereto and having portions defining at least one rectangular aperture passing through the wall, the aperture extending upwardly a first distance in the wall, and the wall extending upwardly from a base to a top, wherein the top of the wall defines an overflow opening and wherein the flange encircles the wall and extends at least a second distance radially outwardly from the base of the wall, wherein the step of setting the flow restrictor on the roof comprises positioning the flow restrictor on the roof so the wall surrounds the roof drain and any drain guard associated with said roof drain, such that the flow restrictor does not overlie the roof drain and any drain guard associated therewith, the so placed flow restrictor serving to restrict the flow of water entering the drain such that the flow restrictor is supported directly by the roof, and is not attached to the drain or fixed to the roof using fasteners which can puncture the roof and cause roof leaks. 2. The method of claim 1 wherein the flow restrictor wall has an upward direction extending between the base and the top, and the wall has a peripheral direction which extends along the surface of the wall perpendicular to the upward direction, and wherein the wall has a plurality of apertures extending upwardly in the wall, wherein each aperture has a height in the upward direction, and wherein the height of each aperture is less than a distance between said aperture and the closest aperture measured along the peripheral direction of the wall. 3. The method of claim 1 wherein the flow restrictor flange is formed of a steel plate. 4. The method of claim 2 wherein the flow restrictor flange is formed of a steel plate. 5. A method for providing flow restrictors for a substantially flat roof with existing roof drains, comprising the following steps: locating an existing roof drain on a substantially flat roof which has an upwardly protruding drain guard; and setting a flow restrictor on the roof, the flow restrictor having a wall which is connected to and which extends upwardly from an encircling flange, the wall having portions defining at least one rectangular aperture passing through the wall, the aperture extending upwardly a first distance in the wall, and the wall extending upwardly from a base to a top, wherein the top of the wall defines an overflow opening and the flange is unperforated and extends at least a second distance radially outwardly from the base of the wall, wherein the second distance is greater than the first distance, wherein the step of setting the flow restrictor on the roof comprises positioning the flow restrictor on the roof to surround the drain guard of the roof drain to restrict the flow of water entering the drain such that the flow restrictor is supported by the roof, and is not attached to the drain or fixed to the roof using fasteners which can puncture the roof and cause roof leaks. 6. The method of claim 5 wherein the flow restrictor wall has an upward direction extending between the base and the top, and the wall has a peripheral direction which extends along the surface of the wall perpendicular to the upward direction, and wherein the wall has a plurality of apertures extending upwardly in the wall, wherein each aperture has a height in the upward direction, and wherein the height of each aperture is less than a distance between said aperture and the closest aperture measured along the peripheral direction of the wall. 7. The method of claim 5 wherein the flow restrictor flange is formed of a steel plate. 8. The method of claim 6 wherein the flow restrictor flange is formed of a steel plate. 9. A method for providing flow restrictors for a substantially flat roof with existing roof drains, comprising the following steps: locating an existing roof drain on a substantially flat roof; and setting a flow restrictor on the roof to surround the roof drain, the flow restrictor having an upwardly extending continuous wall for encirclement of the roof drain, the wall being connected to an encircling flange, and extending upwardly from a base to a top in an upward direction, wherein the top of the wall defines an overflow opening, the wall having a peripheral direction which extends along the surface of the wall perpendicular to the upward direction, and wherein portions of the wall define a plurality of like rectangular apertures passing through the wall, the apertures extending upwardly in the wall, wherein each aperture has a height in the upward direction, and wherein the height of each aperture is less than a distance between said aperture and the closest aperture measured along the peripheral direction of the wall, and the flange extends radially outwardly from the base of the wall, wherein the step of setting the flow restrictor on the roof comprises positioning the flow restrictor on the roof to surround the roof drain to restrict the flow of water entering the drain such that the flow restrictor is supported by the roof, and is not attached to the drain or fixed to the roof using fasteners which can puncture the roof and cause roof leaks. 10. The method of claim 9 wherein the flow restrictor flange is formed of an unperforated steel plate. 11. The method of claim 9 wherein the flow restrictor upwardly extending wall apertures extend upwardly a first distance in the wall, and wherein the flange extends at least a second distance radially outwardly from the base of the wall, wherein the second distance is greater than the first distance.