An annular ductile iron flange of nominal size has a non-threaded inner longitudinal surface defining an inner diameter that exceeds the outer diameter of a corresponding length of hubless ductile iron pipe of nominal thickness. The flange also has a basal surface with both a plurality of evenly spa
An annular ductile iron flange of nominal size has a non-threaded inner longitudinal surface defining an inner diameter that exceeds the outer diameter of a corresponding length of hubless ductile iron pipe of nominal thickness. The flange also has a basal surface with both a plurality of evenly spaced bolt holes and an annular counterbore adjacent to the inner longitudinal surface. The counterbore has a longitudinal depth slightly larger than the nominal thickness and a radial depth slightly larger than twice the nominal thickness. The flange is coupled to, and configured to rotate longitudinally around, the length of pipe. The bell end of the pipe is machined to an annular stub configured to recess into the counterbore. A threaded annular ductile-iron flange may be screwed onto the spigot end of the pipe.
대표청구항▼
1. An annular ductile iron flange of nominal size, comprising an outer longitudinal surface, a non-threaded inner longitudinal surface, a first basal surface, a second basal surface, and a plurality of circular bolt holes evenly spaced and concentrically located in the first basal surface and connec
1. An annular ductile iron flange of nominal size, comprising an outer longitudinal surface, a non-threaded inner longitudinal surface, a first basal surface, a second basal surface, and a plurality of circular bolt holes evenly spaced and concentrically located in the first basal surface and connecting the first basal surface to the second basal surface, wherein the improvement comprises: the inner longitudinal surface defining an inner diameter exceeding an outer diameter of a centrifugally cast length of hubless ductile iron pipe of said nominal size, said pipe also having a nominal thickness and a nominal allowance for casting tolerance, said flange configured to rotate longitudinally around said pipe; andthe first basal surface having an annular counterbore adjacent to said inner longitudinal surface, said counterbore having a longitudinal depth equivalent to the sum of said nominal thickness and said nominal allowance and a radial depth equivalent to the sum of between 1.5 and 2.5 times said nominal thickness and said nominal allowance. 2. A flanged ductile iron pipe spool for connecting two lengths of pipe, comprising: a centrifugally cast length of hubless ductile iron pipe of nominal size, thickness, and allowance for casting tolerance, having a flared bell end, a threaded spigot end, and an outer diameter; anda first annular ductile iron flange of said nominal size coupled to said threaded spigot end, having a threaded inner longitudinal surface, an outer longitudinal surface, a first basal surface, a second basal surface, and a plurality of evenly spaced circular bolt holes connecting the first basal surface to the second basal surface;wherein the improvement comprises: a second annular ductile iron flange of said nominal size coupled to and configured to rotate longitudinally around said pipe, having an outer longitudinal surface and a non-threaded inner longitudinal surface defining an inner diameter, said inner diameter exceeding the outer diameter, the second flange having a third basal surface, a fourth basal surface, and a plurality of evenly spaced circular bolt holes connecting the third basal surface to the fourth basal surface, the third basal surface having an annular counterbore adjacent to said non-threaded inner longitudinal surface, said counterbore having a longitudinal thickness equivalent to the sum of said nominal thickness and said nominal allowance and a radial thickness equivalent to the sum of between 1.5 and 2.5 times said nominal thickness and said nominal allowance; andsaid bell end machined to an annular pipe stub configured to recess into said counterbore, having a longitudinal thickness equivalent to said nominal thickness and a radial thickness equivalent to between 1.5 and 2.5 times said nominal thickness. 3. An annular ductile iron flange of nominal size, comprising: an outer longitudinal surface;an inner longitudinal surface defining a first inner diameter exceeding an outer diameter of a length of centrifugally cast ductile iron pipe of said nominal size, said pipe having a nominal thickness and a nominal allowance for casting tolerance;a first basal surface having an annular counterbore, said counterbore having a longitudinal depth equivalent to the sum of said nominal thickness and said nominal allowance and a radial depth equivalent to the sum of between 1.5 and 2.5 times said nominal thickness and said nominal allowance;a second basal surface; anda plurality of evenly spaced circular bolt holes connecting said first basal surface and said second basal surface. 4. The flange of claim 3, wherein said counterbore has a radial depth equivalent to the sum of twice said nominal thickness and said nominal allowance. 5. A connector for ameliorating misalignment of flange connected ductile-iron pipe, comprising: a centrifugally cast length of hubless ductile-iron pipe of nominal size, thickness, and allowance for casting tolerance, said pipe having a flared bell end, an externally threaded spigot end, and a first outer diameter;a first annular ductile iron flange of said nominal size, said first flange having an outer longitudinal surface and an inner longitudinal surface defining a first inner diameter, said first inner diameter greater than said first outer diameter, said first flange having a first basal surface and a second basal surface, said first basal surface having an annular counterbore, said counterbore having a longitudinal depth equivalent to the sum of said nominal thickness and said allowance and a radial depth equivalent to the sum of between 1.5 and 2.5 times said nominal thickness and said allowance, said first flange having a plurality of evenly spaced bolt holes connecting said first basal surface and said second basal surface, said first flange configured to rotate longitudinally around said pipe;said bell end machined to an annular pipe stub, said pipe stub having a longitudinal thickness equivalent to said nominal thickness and a radial thickness equivalent to between 1.5 and 2.5 times said nominal thickness, said pipe stub configured to recess into said counterbore; anda second annular ductile iron flange of said nominal size, said second flange having an outer longitudinal surface and a threaded inner longitudinal surface, said second flange having a first basal surface and a second basal surface, said second flange having a plurality of evenly spaced bolt holes connecting said first basal surface and said second basal surface, said threaded inner longitudinal surface coupled to said spigot end. 6. The connector of claim 5, wherein: the radial depth of said counterbore is equivalent to the sum of twice said nominal thickness and said allowance; andthe radial thickness of said pipe stub is equivalent to twice said nominal thickness. 7. A method for fabricating a rotating ductile-iron flange, comprising: removing at least a portion of an inner longitudinal surface of a first annular ductile iron flange, said first flange having a nominal size, a first basal surface, a second basal surface and a plurality of evenly spaced circular bolt holes connecting the first basal surface to the second basal surface, the resulting inner longitudinal surface defining an inner diameter, said inner diameter exceeding an outer diameter of a centrifugally cast length of hubless ductile-iron pipe of said nominal size, said pipe having a nominal thickness and a nominal allowance for casting tolerance; andremoving at least a portion of the first basal surface adjacent to the inner longitudinal surface of said first flange, the resulting annular counterbore having a longitudinal depth equivalent to the sum of said nominal thickness and said nominal allowance and a radial depth equivalent to the sum of between 1.5 and 2.5 times said nominal thickness and said nominal allowance. 8. The method of claim 7, wherein the radial depth of said counterbore is equivalent to the sum of twice said nominal thickness and said nominal allowance. 9. The method of claim 7, further comprising: removing a portion of the centrifugally cast length of hubless ductile-iron pipe, said pipe having a flared bell end and an externally threaded spigot end, the resulting bell end comprising an annular pipe stub, said pipe stub having a longitudinal thickness equivalent to said nominal thickness and a radial thickness equivalent to between 1.5 and 2.5 times said nominal thickness;coupling said first flange to said pipe, said first flange configured to rotate freely around the longitudinal axis of said pipe, said pipe stub configured to recess into said annular counterbore; andcoupling a second annular flange to said of pipe, said second flange having a threaded inner surface configured to connect with said externally threaded spigot end. 10. The method of claim 9, wherein said pipe stub has a radial thickness equivalent to twice said nominal thickness.
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Albrecht David E. (1383 Granary Rd. Blue Bell PA 19422), Adapter fitting.
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