Patent application number | Description | Published |
20110047892 | Roof Edge Cable Raceway and Method of Forming Same - A raceway extends along an edge of roof of a structure and is adapted to house a cable, such as an industry standard ice and snow melt heating cable designed, Listed and approved for the purpose. An open side of the raceway exposes the cable and allows for the insertion, replacement and inspection of the cable per industry practice. A side of the raceway may have a radiused edge providing added resiliency to springably retain and/or removably secure the cable in raceway. In the case of a heating cable, heat is transferred to the surrounding structure, and may be concentrated at the drip edge to maximize ice melt efficiency. Methods of installation of the raceway are applicable to new construction and retro-fitting existing structures, including drainage systems, bridge structures and other outdoor enclosures, and may be used with many types of roofing materials including asphalt, wood and metal. | 03-03-2011 |
20110047927 | Method of Securing a Cable to a Roof - On a roof having a raised seam, a method of securing a cable comprises extending a first run of cable in a direction generally parallel to the raised seam. In accordance with the method a cover is accessed having a channel dimensioned to receive at least a portion of the cable therein. The cover is installed on the roof at the raised seam. The cable is secured in the channel of the cover against the roof in a manner such that the cable is partially exposed and visible from a position adjacent the channel. | 03-03-2011 |
20110047930 | Method of Securing a Heating Cable to a Roof - A method comprises forming a generally u-shaped bend in flashing, installing the flashing on a roof between converging surfaces of the roof, and with a clamp comprising an attachment portion having two sections spaced apart by a gap, attaching the clamp to the bend of the flashing by positioning the bend in the gap between the two spaced apart sections and biasing at least of the sections against the bend. The heating cable may then be secured to the clamp. | 03-03-2011 |
20110049118 | Roof Edge Cable Raceway and Method of Forming Same - A raceway extends along an edge of roof of a structure and is adapted to house a cable, such as an industry standard ice and snow melt heating cable designed, Listed and approved for the purpose. An open side of the raceway exposes the cable and allows for the insertion, replacement and inspection of the cable per industry practice. A side of the raceway may have a radiused edge providing added resiliency to springably retain and/or removably secure the cable in raceway. In the case of a heating cable, heat is transferred to the surrounding structure, and may be concentrated at the drip edge to maximize ice melt efficiency. Methods of installation of the raceway are applicable to new construction and retrofitting existing structures, including drainage systems, bridge structures and other outdoor enclosures, and may be used with many types of roofing materials including asphalt, wood and metal. | 03-03-2011 |
20110209434 | Method of Securing a Cable to a Roof - On a roof having a raised seam, a method of securing a cable comprises extending a first run of cable in a direction generally parallel to the raised seam. In accordance with the method a cover is accessed having a channel dimensioned to receive the cable therein. The cover is installed on the roof at the raised seam. The cable is secured in the channel of the cover. | 09-01-2011 |
20140326837 | Methods and Arrangements for Securing Cable to a Roof - A system for securing one or more heating cables to a roof and having one or more apparatuses, each apparatus including a metal base panel and a continuous metal C-shaped channel integrally-formed with the base panel. The channel includes a pair of opposing continuous channel walls creating and surrounding a continuous cavity having a cross-sectional cavity shape substantially identical for at least a majority thereof to the cross-sectional shape of the cable. The channel walls are resiliently flexible to enable receipt of a continuous length of the heating cable within the cavity such that the heating cable is in snug continuous contact with the channel to enhance heat conductance from the heating cable to the base panel. | 11-06-2014 |