Method for manufacturing a fluid control device with disc-type flow restrictor
First Claim
1. A method for making a fluid flow restrictor for incorporation in a valve or the like, and of the type comprising a series of axially aligned and stacked discs, forming an annular restrictor and providing multiple fluid passages between the inside and outside to effect pressure drop and energy dissipation, comprising the steps of(a) forming a plurality of radially spaced, axially projecting baffle-forming annular ribs on opposite faces of each disc of several disc structures, wherein the radial thickness of each of said ribs is substantially less than the radial width of the recess formed between adjacent ribs, and the ribs and recesses are of substantially equal height,(b) forming said annular ribs on said several disc structures whereby the annular ribs on alternate ones of said several disc structures are arranged such that said disc structures are stackable one on another with the ribs on opposed faces of adjacent discs in the stack being offset in the assembled stack with the annular ribs of one disc structure being received in the annular recess of the other,(c) thereafter forming a plurality of radially aligned slots extending through successive ones of said annular ribs on each face of said disc structures,(d) arranging said disc structures in a fixed stack whereby the annular ribs of one face of each disc structure are received in the recesses between the offset annular ribs of the opposed face of an adjacent disc structure and contact said opposed face to define annular flow passages, and(e) orienting said disc structures in the stack whereby the radially aligned slots of the ribs on one side of a disc structure are offset from the radially aligned slots of the interfitting ribs of the adjacent disc structure to form a plurality of series-parallel flow paths between the inside and outside of the assembled disc stack.
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Accused Products
Abstract
The dislosure relates to fluid flow control devices, particularly for use in connection with valves used in the control of fluids under high pressure. In the new structure, the valve trim includes a novel and advantageous form of flow restrictor, which serves to limit flow velocity and which causes the fluid pressure to be reduced in a sufficient number of discrete stages to minimize noise and cavitation. The new flow restictor comprises an axial stack of annular discs, each provided with a plurality of annular baffle ribs projecting from its opposite end faces. The annular baffle ribs on one side of the disc are slotted along a number of equally spaced radii, and the ribs on the opposite side of a disc are similarly slotted, but along radii offset from the first set of radii. When a series of these discs is assembled in a stack, downwardly facing ribs of one disc fit between upwardly facing ribs of a disc next below, providing a series of annular passages interconnected by radial slots. Each series of slots is offset and located between the next series and the preceding series, so that the fluid flow is continually divided and recombined for velocity reduction. In addition, the effective area of the radial slots is less than the area of the annular pasages, such that the fluid is passed successively through a series of restricted orifices and expansion areas in passing through the valve. While many of the basic, underlying principles of the restrictor are known, the specific construction of the restrictor element has important advantages over the known prior art, in that a highly desirable form of restrictor assembly is possible with a relatively minimum manufacturing cost.
30 Citations
4 Claims
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1. A method for making a fluid flow restrictor for incorporation in a valve or the like, and of the type comprising a series of axially aligned and stacked discs, forming an annular restrictor and providing multiple fluid passages between the inside and outside to effect pressure drop and energy dissipation, comprising the steps of
(a) forming a plurality of radially spaced, axially projecting baffle-forming annular ribs on opposite faces of each disc of several disc structures, wherein the radial thickness of each of said ribs is substantially less than the radial width of the recess formed between adjacent ribs, and the ribs and recesses are of substantially equal height, (b) forming said annular ribs on said several disc structures whereby the annular ribs on alternate ones of said several disc structures are arranged such that said disc structures are stackable one on another with the ribs on opposed faces of adjacent discs in the stack being offset in the assembled stack with the annular ribs of one disc structure being received in the annular recess of the other, (c) thereafter forming a plurality of radially aligned slots extending through successive ones of said annular ribs on each face of said disc structures, (d) arranging said disc structures in a fixed stack whereby the annular ribs of one face of each disc structure are received in the recesses between the offset annular ribs of the opposed face of an adjacent disc structure and contact said opposed face to define annular flow passages, and (e) orienting said disc structures in the stack whereby the radially aligned slots of the ribs on one side of a disc structure are offset from the radially aligned slots of the interfitting ribs of the adjacent disc structure to form a plurality of series-parallel flow paths between the inside and outside of the assembled disc stack.
Specification