Herein disclosed is a centrifugally cast pole having a substantially uniform wall thickness along the long axis of the pole. During centrifugal casting, molten metal is poured inside a rotating, tapered mold. As chilled liquid is poured over the outside of the rotating mold, the metal forms, or pain
Herein disclosed is a centrifugally cast pole having a substantially uniform wall thickness along the long axis of the pole. During centrifugal casting, molten metal is poured inside a rotating, tapered mold. As chilled liquid is poured over the outside of the rotating mold, the metal forms, or paints, to the contour of the mold interior creating a metal pole. By precisely controlling casting gyrations such as the spin, travel, pitch, and yaw of the rotating mold and the calibration and physical mechanisms of the casting machine, hollow, tapered, tubular metal poles are produced with previously unknown uniformity of wall thickness. The controlling principles, designs, and mechanisms of this centrifugal casting method enable wall uniformity to extremely high tolerances. By extension, the ability to precisely control the metal volume painted inside the mold allows, as a design choice, wall thickness variation in any embodiment if so desired.
대표청구항▼
1. A hollow, tapered, cylindrical utility pole having an outer diameter that varies along a length of the member, comprising: a tapered, seamless, unitary cylindrical wall made of a metallic material via centrifugal casting, wherein a first portion of the tapered cylindrical wall has a first thickne
1. A hollow, tapered, cylindrical utility pole having an outer diameter that varies along a length of the member, comprising: a tapered, seamless, unitary cylindrical wall made of a metallic material via centrifugal casting, wherein a first portion of the tapered cylindrical wall has a first thickness, wherein a second portion of the tapered cylindrical wall has a second thickness that is different from the first thickness, wherein the first thickness of the tapered cylindrical wall is substantially constant along a majority of the length of the cylindrical wall, and wherein an interior surface of a large diameter end of the tapered cylindrical wall has a shape and dimensions that would allow an external surface of a small diameter end of a second hollow, tapered, cylindrical utility pole to be inserted into the large diameter end of the tapered cylindrical wall; anda running ring also formed by the centrifugal casting and comprising a circular or ring-shaped flange that extends radially outward from an exterior side of the large diameter end of the tapered cylindrical wall, wherein the running ring is configured such that as the tapered, cylindrical utility pole is rolled along an annealing furnace, a surface of the flange will engage a running rail in the annealing furnace to cause the tapered, cylindrical utility pole to follow a substantially straight passage through the annealing furnace. 2. The hollow, tapered cylindrical utility pole of claim 1, wherein an interior diameter of the cylindrical wall narrows along the length of the cylindrical wall. 3. The hollow, tapered cylindrical utility pole of claim 1, wherein the first thickness of the first portion of the tapered, cylindrical wall is substantially uniform along the length of the first portion, and wherein the second thickness of the second portion of the tapered, cylindrical wall is substantially uniform along the length of the second portion. 4. The hollow, tapered cylindrical utility pole of claim 1, further comprising an access aperture that extends through the tapered, cylindrical wall adjacent the large diameter end of the tapered, cylindrical wall. 5. The hollow, tapered cylindrical utility pole of claim 1, wherein the access aperture is generally rectangular in shape. 6. The hollow, tapered cylindrical utility pole of claim 1, wherein the tapered, seamless, unitary cylindrical wall is formed via centrifugal casting process in which molten metallic casting material is poured into a rotating mold while the rotating mold is translated, and in which at least one of a pouring rate of the molten metallic casting material, a rotational speed of the rotating mold and a translation speed of the rotating mold is varied during the casting operation such that the first thickness of the tapered cylindrical wall is substantially constant along a majority of the length of the cylindrical wall.
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