Flange-less flow reducer for joining fluid-flow components
First Claim
1. For joining two fluid-flow conducting components having unequal sized end flanges penetrated by an equal number of holes, that component having the larger size flange also having a larger flow opening than the other such component, the invention comprising:
- a flow reducer having a body including end faces parallel to each other and a flow passage therebetween of such varying diameter as to fit the flow openings of such components,one of said end faces having, adjacent to its outer edge and equally spaced radially from the axis of fluid flow and at equal angular spacing from each other, a plurality of tapped threaded holes extending perpendicularly inward from said face in a pattern which fits that of such larger size flange, andthe other said end face having, equally spaced angularly from each other and at a radially lesser distance from the axis of fluid flow, the same number of tapped threaded holes extending perpendicularly inward from said face, but not through the body, in a pattern which fits that of such smaller size flange,whereby to avoid or lessen interference between said holes in the opposite faces.
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Accused Products
Abstract
Difference in internal diameters of flanged fluid-flow components, such as pumps and valves, are accommodated by the present flow adapter with a much lessened space requirement. The adapter is preferably formed as a metal casting with parallel faces, and with its tapered bore, which extends from one face to the other, surrounded by a pattern of tapped holes, into which the flanges of the fluid-flow components are screwed. No nuts are used; there is no need for access to the space occupied by the adapter, between the flanges of the two fluid-flow components. Results include a much lessened installation length with only a modest loss of fluid-flow efficiency.
18 Citations
8 Claims
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1. For joining two fluid-flow conducting components having unequal sized end flanges penetrated by an equal number of holes, that component having the larger size flange also having a larger flow opening than the other such component, the invention comprising:
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a flow reducer having a body including end faces parallel to each other and a flow passage therebetween of such varying diameter as to fit the flow openings of such components, one of said end faces having, adjacent to its outer edge and equally spaced radially from the axis of fluid flow and at equal angular spacing from each other, a plurality of tapped threaded holes extending perpendicularly inward from said face in a pattern which fits that of such larger size flange, and the other said end face having, equally spaced angularly from each other and at a radially lesser distance from the axis of fluid flow, the same number of tapped threaded holes extending perpendicularly inward from said face, but not through the body, in a pattern which fits that of such smaller size flange, whereby to avoid or lessen interference between said holes in the opposite faces. - View Dependent Claims (2, 3, 4, 5)
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6. For joining two fluid-flow conducting components having unequal sized end flanges penetrated by an unequal number of holes, that component having the larger size end flange also having both the greater number of holes and a larger flow opening, the invention comprising:
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a flow reducer having a body characterized by a larger end face and a smaller end face parallel to each other, and a tapered flow passage therebetween terminating in flow openings in said faces, said larger end face having, equally spaced radially from the axis of fluid flow, a plurality of tapped threaded holes extending perpendicularly inward into said face, said smaller end face having, equally spaced from the axis of fluid flow at a radially lesser distance from the axis of fluid flow than said holes in the larger end face, a lesser number of tapped threaded holes extending perpendicularly inward into said smaller end face, the thickness of the reducer being greater than the required depth of holes tapped in the smaller end face, said lesser number of holes being in a circular pattern in which none of said holes are in angular alignment with any of the holes in said larger end face, whereby such lack of angular correspondence assures against interference between said patterns of holes in the opposite faces. - View Dependent Claims (7)
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8. For transmitting fluid flow between a first fluid flow component having a smaller flow opening surrounded by an end flange and a second fluid flow component having a larger flow opening surrounded by a diametrically-larger end flange,
a flow reducer comprising a two-level body formed about a central axis and having two parallel end surfaces, said first end surface having a smaller flow opening and a plurality of radially-outward lobes, which extend to substantially mid-depth of the reducer, each of said lobes having a tapped bore, and said second end surface being substantially circular and larger than said first end surface and having a larger flow opening and a plurality of tapped holes thereabout whose number and pattern fits the number and pattern of such second flow component, said flow reducer further having at substantially mid-depth a ring-like planar surface whose outer outline is substantially the same as the outline of said second end surface, and having an inner outline at which said lobes terminate, further having a generally cylindrical side surface between said second end surface and said mid-depth surface.
Specification