Fluid sprinkling – spraying – and diffusing – Rigid fluid confining distributor – Orifice in separable disc or plate
Reexamination Certificate
2002-08-20
2004-11-09
Doerrler, William C. (Department: 3744)
Fluid sprinkling, spraying, and diffusing
Rigid fluid confining distributor
Orifice in separable disc or plate
C239S600000
Reexamination Certificate
active
06814316
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field
Generally, the invention relates to high pressure fluid cutting systems. Particularly, the invention relates to high velocity cutting nozzles for connection to the fluid supply tube of high pressure fluid cutting systems. Specifically, the invention relates to cutting nozzles comprising a housing which threadably connects to the fluid supply tube for receiving pressurized liquid therefrom, with a bushing disposed in the housing that sandwiches a removable sleeved orifice disk therebetween at a spray outlet bore of the housing.
2. Background Information
High pressure liquid cutting devices are commonly used for cutting various sheet materials such as plastics, and masonry materials such as brick and concrete slabs. Such cutting devices are also used for drilling and abrading materials. Such devices are also often used to clean materials such as masonary and steel. Such cutting devices usually include an electric motor which drives a hydraulic pump supplying a working fluid to a high pressure intensifier unit. The intensifier draws a cutting liquid in the form of water from a reservoir, and discharges the water at a very high pressure (e.g. 20,000 to 70,000 psi or more) through the fluid supply tube to the cutting nozzle to produce a fluid jet to cut through the desired material. The fluid jet may range in diameter from about a thousandth of an inch up to about fifteen thousandths of an inch or more, at a velocity of about 1,000 to 3,000 feet per second.
Many prior art cutting nozzles are prone to prematurely wearing out due to abrasion caused by the high pressure and velocity of the water traveling through the nozzles upstream of the orifice. Turbulence upstream of the orifice also causes lack of cohesiveness of the fluid jet. That is, convergence of the various velocity vectors of the fluid within the fluid jet at the orifice only extends for a short distance upon exiting the orifice. This results in a more dispersed fluid jet having less cutting force so only shallower cuts may be made, a wider width of cut or kerf, and more overspraying or wetting of the material adjacent the cut. Conversely, a more cohesive fluid jet provides a finer fluid jet, more precise cutting, and deeper cuts.
One attempt to reduce such turbulence is a liquid jet cutting device and method disclosed in U.S. Pat. No. 3,997,111 issued to Thomas et al. on Dec. 14, 1976. The disclosed device includes a source of high pressure fluid, a jet nozzle, and a high pressure conduit connecting the fluid source to the nozzle. A liquid collimating device is disposed directly upstream of the nozzle comprising a housing interconnected between the conduit and the nozzle. The housing defines a flow collimating chamber directly upstream of the nozzle through which the high pressure liquid is delivered to the nozzle. The cross-sectional area of the flow collimating chamber must be at least greater than one hundred times the cross-sectional area of the nozzle opening. The liquid jet produced is claimed to have relatively little dispersion and a relatively narrow kerf.
An orifice assembly and method providing highly cohesive fluid jet is disclosed in U.S. Pat. No. 5,226,597 issued to Ursic on Jul. 13, 1993. The orifice assembly includes a housing that receives pressurized fluid from a supply tube. The housing has a passageway therein through which the fluid flows. The passageway has an orifice element therein having an orifice for producing the fluid jet, and a converging section disposed upstream of the orifice that extends toward the orifice element. The converging section is designed to reduce turbulence upstream of the orifice and thus produce a more cohesive fluid jet emitted from the orifice. A section having a rounded surface is disposed between the converging section and the orifice element which joins the converging section and an upstream portion of the orifice element. The section is designed to further improve the cohesiveness of the fluid jet by further reducing turbulence upstream of the orifice.
Although these devices are adequate for the purpose for which they were intended, the first device has additional length and adds weight to the cutting assembly. Additionally, neither device directly addresses the problem of nozzle wear.
Another problem with prior art nozzles is the inability to easily change orifice sizes when the particular material requires such. The sapphire orifice disk is typically affixed to the nozzle housing requiring changing out of the entire nozzle, or the use of a press to remove the orifice disk from the housing. Furthermore, the same must be done to replace a worn out orifice disk. If the orifice disk cannot be removed, the entire nozzle must be scrapped.
Therefore, the need exists for an improved high velocity cutting nozzle that reduces turbulence upstream of the orifice to produce a narrow kerf, that has a significantly longer service life prior to wearing out, and having easily replaceable orifice disks.
SUMMARY OF THE INVENTION
Objectives of the invention include providing a high pressure cutting nozzle which has reduced turbulence.
Another objective is to provide a high pressure cutting nozzle with significantly reduced internal wear due to abrasion of the water flow providing a longer service life.
A further objective is to provide a high pressure cutting nozzle in which orifice disks are easily changed to ones having a different orifice size or replaced when worn out.
A still further objective of the invention is to provide such a high pressure cutting nozzle which includes a separate housing and bushing between which the orifice disk is sandwiched, and which solves problems and satisfies needs existing in the art.
These objectives and advantages are obtained by the improved high velocity cutting nozzle for connection to a fluid supply tube of a high pressure fluid cutting system of the present invention, the general nature of which may be stated as including: a housing adapted for connection to the fluid supply tube, a bushing receiving bore extending from the fluid supply tube partially through the housing, and a spray outlet bore extending inwardly from a front surface of the housing which joins with the bushing receiving bore through which the liquid is directed as a high velocity liquid cutting jet; a bushing that closely fits within the bushing receiving bore, having an end surface adapted to closely sealingly engage a mating surface of the housing within the bushing receiving bore, the bushing having a flow-directing bore for receiving the liquid from the fluid supply tube and extending at least partially through the bushing, the flow directing bore including a convergent inlet portion having an annular inner surface for reducing turbulence in the flow-directing bore, and an outlet portion having an annular inner surface and a convergent end surface; and an orifice plate in co-axial fluid communication with the flow-directing bore and the spray outlet bore, the orifice plate fitting within a sleeve receiving bore in one of the bushing and the housing immediately downstream of the flow-directing bore and abutting a shoulder of the bushing, the orifice plate having an orifice of a diameter that is smaller than a minimum diameter of the flow-directing bore for producing a high velocity fluid jet, with the orifice plate being sandwiched between the bushing and the housing.
According to another aspect, the objectives and advantages are obtained by the improved method for extending the service life of a high velocity cutting nozzle, the general nature of which may be stated as including the steps of: producing a flow of high pressure fluid; passing the flow through a flow-directing bore including a convergent inlet portion having an annular inner surface, and through an outlet portion having an annular inner surface and a convergent end surface to remove turbulence; and passing the flow through an orifice closely adjacent the flow-directing bore having an orifice of a diameter that is smaller than a minimum diameter of the flow-dir
Doerrler William C.
Sand & Sebolt
Terydon, Inc.
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