US2007029A - Washer gun - Google Patents

Washer gun Download PDF

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US2007029A
US2007029A US608577A US60857732A US2007029A US 2007029 A US2007029 A US 2007029A US 608577 A US608577 A US 608577A US 60857732 A US60857732 A US 60857732A US 2007029 A US2007029 A US 2007029A
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stream
nozzle
gun
orifice
walls
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Jr William C Uhri
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S3/00Vehicle cleaning apparatus not integral with vehicles
    • B60S3/04Vehicle cleaning apparatus not integral with vehicles for exteriors of land vehicles
    • B60S3/044Hand-held cleaning arrangements with liquid or gas distributing means
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01HSTREET CLEANING; CLEANING OF PERMANENT WAYS; CLEANING BEACHES; DISPERSING OR PREVENTING FOG IN GENERAL CLEANING STREET OR RAILWAY FURNITURE OR TUNNEL WALLS
    • E01H1/00Removing undesirable matter from roads or like surfaces, with or without moistening of the surface
    • E01H1/10Hydraulically loosening or dislodging undesirable matter; Raking or scraping apparatus ; Removing liquids or semi-liquids e.g., absorbing water, sliding-off mud
    • E01H1/105Raking, scraping or other mechanical loosening devices, e.g. for caked dirt ; Apparatus for mechanically moving dirt on road surfaces, e.g. wipers for evacuating mud

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  • Myinvention relates to the .production of a stream of atomized iiuid for use in cleansing articles which have been coated 4with grease, .dirt Land other substances which are diiiicult-gt'o rcy 5 Amove by ordinary cleaning methods.
  • My'invention consists in a novel nozzle or washing-gun, and in the method ofA producing Aan atomized stream, Aand utilizes certain general principles disclosed in Patent No. 1,751,719 issuedto Ime March 25, 1930. Y A Y.
  • Another object of my present invention is to .provide a stream having a Wide, flat cross-section of fairly uniform atomization throughoutits width. Such a stream is more effective for clean- Aing large surfaces just as a wide, iiat paint brush is better than a round brush for coveringlatsurfaces.
  • N Another object of my invention is to provide a flat, wide stream of air'only for drying.. purpOSeS, L
  • Another object of my invention is to provide a portable tool which may be'connected to'any vsuitable sources of supply of airk Aor watery. or like iluids,and will utilize the ⁇ he ⁇ at,. ifzpresent, of one of the uids to increase the pressure and volume of the other fluid prior to the combination and discharge of the fluids from the tool.
  • FIGs 4, 5, 6 and 7 are vertical transverse sections through the gun body taken on the corresponding section lines of Figure 3.
  • Figure 8 is a front end view.
  • my present gun embodies aniriner nozzle for discharging a stream of air orj other :motive fluid, which nozzle has substantially parallel sides andY an'elongated thin orifice,V and a similarly shaped outer nozzle for Water kor'other 'liquid surrounding the inner nozzle and extending a substantial distance forwardly thereofk to conne the combineduid stream within a reistricted but gradually increasing crosssectional 'areavfor a sufiicient distance or?
  • time lto effect any tendency towards cross currents or spreadving of the stream,'whereby the stream ofair and'water, or similar mixture, may be discharged from the end of the device in a iiat, wide spray 1 5 yupper and lower sections I and 2, each havin-g a series of lugs 3 along theedges thereof for asl,
  • the rear! end 8 of the gun body has perforated J lugs 9 for attachment to the lugs I0 on an internallythreaded sleeve II into which isiscrewed the end of the/elongated conduit I2.
  • the forward end of the Vgun vbody comprises an'axially elongated outer nozzle I3 having diverging side AWalls-III Yand substantiallyparallel top and bo'ttomV walls I5 and I6 reinforced by ribs Il.
  • Walls I5 and I6 are preferably slightly converging in order to oiset to a Adegree the tendency ofthe atomized stream to expand perpendic'ularly of the wider dimension of the nozzle when released.
  • the kouternozzle should be of vsuiiicient length vto 'insure substantial atomization and shaping of 'the fluid streams,rthe length of the nczzle illustrated ofthe orifice of the outer nozzle constitutes a straight line or straight angle extension of the inner Vperiphery of the main walls of ⁇ the nozzle as Ydistinguished from timber structures having Walls which diverge or converge relative to the walls of the body of the nozzle.
  • an inner nozzle I Located within the Aenlarged chamber 6 is an inner nozzle I .having a discharge portion including diverging side walls 20 preferably machined at the outer end and substantially paralleling the sides I4 of the outernozzle, and having top and bottom walls 2
  • Fluid isA supplied to the innernozzle by means of a conduit 23 having threaded attachment to the inner'nozzle at 25.
  • the inner nozzle merges with sleeve II, preferably in a one-piece structure braced by ribs 26.
  • the inner and outer nozzles are so arranged that the water stream will be in dynamic W or motion equally on all sides of the air orifice. This is produced by coaxial air and water ducts both of substantial length and distinguishes my device from structures wherein water enters a mixing chamber at various angles to the air outlet orifice.
  • Conduit 23 is smaller than conduit I2 and is located inside the same. Both of the conduits extend rearwardly a substantial distance from the body of the gun, and the outer conduit mounts gripping handles 21 and 28 to facilitate manipulation of the gun. Handle 21 maybe insulated from the conduits.
  • the conduits at points remote from the gun and adjacent to handle 28 are provided with suitable couplings such as 30 in Figure 3 to which supply hose (not shown) are connected.
  • the couplings are controlled by valves, the handle 29 of one of which is shown, these valves being illustrated and described in my co-pendingapplication Serial #274,548, filed May 2, 1928, now Patent No. 1,903,522, issued April 11, 1933.
  • Air and water under pressure are supplied to the inner and outer nozzles, respectively, and when warm Water is used, the heat therefrom is imparted to the air in the enveloped conduit and serves to increase the pressure and Volume thereof and thereby increase the atomization and velocity of the discharged stream.
  • the conduits are of copper with thin walls whereby the weight of the entire device is minimized, the transfer of heat from the hot water to the air stream is facilitated, andthe radiationv of heat from the outer conduit to the atmosphere is reduced.
  • a nozzle having a fiat outlet orifice will have a greater circumference than a round nozzle of the same cross-sectional area.
  • the outlet orifice of the inner nozzle 'l in the drawings measures '7/8" by 3/64. in cross section, the area of this orifice will be .04101,square inch and the circumference 1.843.
  • a round inner nozzle with an orifice having the same cross-sectional area would have a circumference of .687 inch, approximately one-third that of a flat nozzle.
  • a washing gun constructed as described above having an air discharge orifice measuring 3/64 X 7/8 in cross-sectional area at its outer end, an outer nozzle measuring 55" x 1% in cross-sectional area at its inner end and flaring to ⁇ 1A," x 3%" at its outer end and having a length between its inner and outer ends of 6%, when supplied with air at a working pressure of 87 pounds per square inch and water at pounds per square inch, produces a flat stream of water which at a distance of 12 inches from the gun has a width of 7 inches; 24 inches from the gun has a width of 11 inches; 36 inches from the gun has a Width of 15 inches, and similarly increases regularly in width for a distance of about 10 feet from the gun without losing its fiat shape.
  • the atomization is so fine that at a distance of 3 feet from the end of the nozzle an object may be readily viewed through the broad side of the stream.
  • Such a stream has thoroughly cleansed -such dicult surfaces as a concrete slab in a railway locomotive yard where the dust, crater oil, and other dirt present in such surroundings have been tramped into the pitted surface of the concrete and baked by the sun until washing with an ordinary stream of high pressure water is useless.
  • a threaded inlet I8 for mounting a housing 24 of an air valve which functions to admit atmospheric air when the water supply is cut off and the gun is used for drying purposes.
  • 'Ihis air valve may be automatic, as shown, or a manually operated valve may be substituted therefor.
  • the valve illustrated is fully described in my copending application, Serial No. 274,548, filed May 2, 1928.
  • the invention broadly includes the use of Wide shallow flaring discharge nozzles, substantially .as shown, and the wider top and bottom walls of the outer nozzle may be made parallel, if desired, instead of slightly converging.
  • the advantages of the gun arise from the improved atomization resulting from the novel shaping and arrangement of the parts.
  • the gun may be used with other uids than those referred to and it is not essential that these be supplied at the pressures indicated.
  • an outer nozzle having flat substantially parallel sides and flaring edges and a fluid inlet into the restricted end thereof, and a similarly shaped inner nozzle coaxial therewith and spaced therefrom having an elongated thin outlet tone located immediately adjacent said restricted endof said outer nozzle and having a fluid inlet, the sides and edges of said outer nozzle substantially paralleling the corresponding sides and edges of said inner nozzlev and being offset outwardly of the respective planes thereof, the orifice of the outer nozzle forming a straight angle extension of the inner walls ofthe nozzle adjacent to the orifice.
  • a parallelsided, diverging edged outer nozzle a similarly shaped inner nozzle coaxial therewith and spaced therefrom with an elongated shallow outlet orifice disposed to discharge directly into the smaller end of said outer nozzle, and means for supplying fluids under pressure to said inner nozzle-and to the smaller end of said outer nozzle, respectively, the orifice of the outer nozzle forming a straight angle extension of the inner walls of the nozzle adjacent to the orifice.
  • the method of producing a fiat stream of finely atomized liquid under high pressure which consists in discharging a thin, flat edgewise diverging jet of gaseous material under pressure into a concurrent stream of liquid surrounding the same under comparable pressure, confining the mixture in a relatively thin, flat edgwise diverging form for a distance sufficient to permit substantial atomization of the liquid, and then freeing the atomized mixture.
  • coaxial inner and outer nozzles having closely spaced substantially parallel sides and diverging edges, said outer nozzle having a laterally elongated shallow throat and said inner nozzle having a similarly shaped but slightly smaller outlet orifice immediately adjacent the throat ofwsaid outer nozzle, the outlet orifice of the outer nozzle forming a straight angle extension of the inner wall of the nozzle adjacent to the orifice.
  • coaxial inner and outer nozzles With corresponding walls spaced apart, each having a fluid inlet and flat substantially parallel sides, said nozzles having substantially coplanar diverging edges, the outlet orifice of said inner nozzle being laterally elongated so as to discharge a flat diverging stream and being positioned immediately adjacent the inl-et end of said outer nozzle.
  • a device of the class described including fiat coaxial inner and outer fluid nozzles leach having substantially parallel wide sides and diverging narrow edges, the sides and edges of one nozzle being spaced from the sides and edges of the other nozzle transversely of the axis of the device and said outer nozzle having an elongated outlet orifice forming a straight angle extension of the inner walls and edges of said outer nozzle, said outer nozzle in its entirety extending a substantial distance forwardly of said inner nozzle.
  • an inner nozzle having a fiuid inlet, flat substantially parallel sides and diverging edges and an orifice defined by the inner walls thereof, and a similarly vshaped outer nozzle coaxial therewith and with its walls spaced fromthe walls of the inner nozzle transversely of the device, the orifice of the inner nozzle discharging at the throat of the outer nozzle, the orifice of the outer nozzle also defined by the inner walls thereof.
  • an axially elongated outer nozzle having an inlet throat and a, discharge orifice and an elongated intermediate part, said throat, orifice, and part maintaining a wide fiat cross-section substantially from end to end of the nozzle, the width of the nozzle increasing from throat to orifice and the orifice constituting a straight angle extension of the walls of the nozzle, and a relatively short inner nozzle with its sides substantially coplanar with said outer nozzle sides and shaped tovdischarge a wide fiat stream of motive fluid directly into the wide fiat throat of said outer nozzle and axially thereof.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Nozzles (AREA)

Description

July 2, 1935. w. c. UHRI, .JR
WASHER GUN Filed May 2, 1952 2 Sheets-Sheet 1 /m/fn/af //fa/ff C A ,0f/afm@ w NQ www J zml. ,n\ mw July 2, 1935. w. c. UHRI, JR 2,007,029
WASHER- GUN Filed May 2, 1952 l 2 Sheets-Sheet 2 Patented July 2, 1935 UNITED STATE/ vvs001029 PATENT] ori-icaj-fv VWASHER GUN William cpunri, Jr., st. Louis, Mo. Appiicatitnfmy 2, v1932, serias No. 608,577
i1 claims; (C1. 299-140) l l i M I a high degree of atomization and to eliminate Myinvention relates to the .production of a stream of atomized iiuid for use in cleansing articles which have been coated 4with grease, .dirt Land other substances which are diiiicult-gt'o rcy 5 Amove by ordinary cleaning methods. My'invention consists in a novel nozzle or washing-gun, and in the method ofA producing Aan atomized stream, Aand utilizes certain general principles disclosed in Patent No. 1,751,719 issuedto Ime March 25, 1930. Y A Y.
The main object of my present invention'is to provide a more effective stream byrobtaining a. higher degree of atomization and higher, velocity thereof than has been ypossible heretofore. f
Another object of my present invention is to .provide a stream having a Wide, flat cross-section of fairly uniform atomization throughoutits width. Such a stream is more effective for clean- Aing large surfaces just as a wide, iiat paint brush is better than a round brush for coveringlatsurfaces. N Another object of my invention is to provide a flat, wide stream of air'only for drying.. purpOSeS, L
Another object of my invention is to provide a portable tool which may be'connected to'any vsuitable sources of supply of airk Aor watery. or like iluids,and will utilize the `he`at,. ifzpresent, of one of the uids to increase the pressure and volume of the other fluid prior to the combination and discharge of the fluids from the tool.
These and other detail objects of'my invention are attained by the structure illustii'tted4` in the accompanying drawings, in which- Figure 1 is in part a top View of the1gun,and in part a horizontal section on rthe line I-I of Figure 3 Y 'ff Figure 2 is a side view of the gun; Y f Figure 3 is a vertical section taken on the lon-'- gitudinal center line, portions of the handle being in elevation.
Figures 4, 5, 6 and 7 are vertical transverse sections through the gun body taken on the corresponding section lines of Figure 3. Figure 8 is a front end view. A. Briefly, my present gun embodies aniriner nozzle for discharging a stream of air orj other :motive fluid, which nozzle has substantially parallel sides andY an'elongated thin orifice,V and a similarly shaped outer nozzle for Water kor'other 'liquid surrounding the inner nozzle and extending a substantial distance forwardly thereofk to conne the combineduid stream within a reistricted but gradually increasing crosssectional 'areavfor a sufiicient distance or? time lto effect any tendency towards cross currents or spreadving of the stream,'whereby the stream ofair and'water, or similar mixture, may be discharged from the end of the device in a iiat, wide spray 1 5 yupper and lower sections I and 2, each havin-g a series of lugs 3 along theedges thereof for asl,
1. The rear! end 8 of the gun body has perforated J lugs 9 for attachment to the lugs I0 on an internallythreaded sleeve II into which isiscrewed the end of the/elongated conduit I2. The forward end of the Vgun vbody comprises an'axially elongated outer nozzle I3 having diverging side AWalls-III Yand substantiallyparallel top and bo'ttomV walls I5 and I6 reinforced by ribs Il. Walls I5 and I6 are preferably slightly converging in order to oiset to a Adegree the tendency ofthe atomized stream to expand perpendic'ularly of the wider dimension of the nozzle when released.A The kouternozzle should be of vsuiiicient length vto 'insure substantial atomization and shaping of 'the fluid streams,rthe length of the nczzle illustrated ofthe orifice of the outer nozzle constitutes a straight line or straight angle extension of the inner Vperiphery of the main walls of` the nozzle as Ydistinguished from orice structures having Walls which diverge or converge relative to the walls of the body of the nozzle.
Located within the Aenlarged chamber 6 is an inner nozzle I .having a discharge portion including diverging side walls 20 preferably machined at the outer end and substantially paralleling the sides I4 of the outernozzle, and having top and bottom walls 2| and 22 which at their forward ends substantially parallel each other and the' top and bottom walls I5 and IB'lof the v'outer nozzle.
the fluid stream supplied through body 6 to the outer nozzlewill substantially envelop the iiuid stream emitted from the inner nozzle. Fluid isA supplied to the innernozzle by means of a conduit 23 having threaded attachment to the inner'nozzle at 25. The inner nozzlemerges with sleeve II, preferably in a one-piece structure braced by ribs 26. The inner and outer nozzles are so arranged that the water stream will be in dynamic W or motion equally on all sides of the air orifice. This is produced by coaxial air and water ducts both of substantial length and distinguishes my device from structures wherein water enters a mixing chamber at various angles to the air outlet orifice.
Conduit 23 is smaller than conduit I2 and is located inside the same. Both of the conduits extend rearwardly a substantial distance from the body of the gun, and the outer conduit mounts gripping handles 21 and 28 to facilitate manipulation of the gun. Handle 21 maybe insulated from the conduits. The conduits at points remote from the gun and adjacent to handle 28 are provided with suitable couplings such as 30 in Figure 3 to which supply hose (not shown) are connected. The couplings are controlled by valves, the handle 29 of one of which is shown, these valves being illustrated and described in my co-pendingapplication Serial #274,548, filed May 2, 1928, now Patent No. 1,903,522, issued April 11, 1933.
Air and water under pressure are supplied to the inner and outer nozzles, respectively, and when warm Water is used, the heat therefrom is imparted to the air in the enveloped conduit and serves to increase the pressure and Volume thereof and thereby increase the atomization and velocity of the discharged stream. Preferably, the conduits are of copper with thin walls whereby the weight of the entire device is minimized, the transfer of heat from the hot water to the air stream is facilitated, andthe radiationv of heat from the outer conduit to the atmosphere is reduced. These results are obtained due to the fact that copper has a high value as a conductor of heat and has a low value as a radiator of heat. The desired eifects are increased if the inner conduit has a dull or rough nisli and if the outer conduit is highly polished as a polished copper pipe radiates heat much less readily than a pipe with a rough finish; q
Extensive experimental, development work which I have done in connection withv the cleaning and washing art indicates that the greater the atomization of the washing stream the more effective work it will do-this being because the finer particles of liquid may penetrate between particles of dirt where thicker particles of the liquid will impinge upon the particles of dirt and rebound without separatingand removing the latter from the surface to which they adhere. Also I have found that the degreerof atomization of the projected stream depends upon the extent of the contact zone between the fast moving air stream and the surrounding liquid. lThis contact zone depends in turn upon the cross sectional shape of the outlet orifice of the inner nozzle. Equal distribution of liquid around the inner jet requiresthat the outer nozzle be shaped similarly to the inner jet. i
Clearly, a nozzle having a fiat outlet orifice will have a greater circumference than a round nozzle of the same cross-sectional area. I apply this principle to obtain substantially improved results in my novel washer gun due to the increased atomization of the projected stream resulting from the increased area of the contact zone between the inner and outer streams. If the outlet orifice of the inner nozzle 'l in the drawings measures '7/8" by 3/64. in cross section, the area of this orifice will be .04101,square inch and the circumference 1.843. A round inner nozzle with an orifice having the same cross-sectional area would have a circumference of .687 inch, approximately one-third that of a flat nozzle.
A washing gun constructed as described above having an air discharge orifice measuring 3/64 X 7/8 in cross-sectional area at its outer end, an outer nozzle measuring 55" x 1% in cross-sectional area at its inner end and flaring to` 1A," x 3%" at its outer end and having a length between its inner and outer ends of 6%, when supplied with air at a working pressure of 87 pounds per square inch and water at pounds per square inch, produces a flat stream of water which at a distance of 12 inches from the gun has a width of 7 inches; 24 inches from the gun has a width of 11 inches; 36 inches from the gun has a Width of 15 inches, and similarly increases regularly in width for a distance of about 10 feet from the gun without losing its fiat shape. The atomization is so fine that at a distance of 3 feet from the end of the nozzle an object may be readily viewed through the broad side of the stream. Such a stream has thoroughly cleansed -such dicult surfaces as a concrete slab in a railway locomotive yard where the dust, crater oil, and other dirt present in such surroundings have been tramped into the pitted surface of the concrete and baked by the sun until washing with an ordinary stream of high pressure water is useless.
Depending from the lower portion of the body of the gun is a threaded inlet I8 for mounting a housing 24 of an air valve which functions to admit atmospheric air when the water supply is cut off and the gun is used for drying purposes. 'Ihis air valve may be automatic, as shown, or a manually operated valve may be substituted therefor. The valve illustrated is fully described in my copending application, Serial No. 274,548, filed May 2, 1928.
Shutting off the water supplied to the outer nozzle results in the creation of a vacuum in the chamber 6 which causes the valve 33 to lift from its seat 34 permitting atmospheric air to enter chamber 6, thus augmenting the stream of compressed air for drying purposes. The discharged air stream will have the same wide shape as the washing stream and will dry a broad surface more rapidly than a cylindrical stream.
The invention broadly includes the use of Wide shallow flaring discharge nozzles, substantially .as shown, and the wider top and bottom walls of the outer nozzle may be made parallel, if desired, instead of slightly converging. The advantages of the gun arise from the improved atomization resulting from the novel shaping and arrangement of the parts.
Moreover, the gun may be used with other uids than those referred to and it is not essential that these be supplied at the pressures indicated.
I contemplate the exclusive use of such modications ascome within the scope of the appended claims.
What is claimed is:
1. In a device of the class described, an outer nozzle having flat substantially parallel sides and flaring edges and a fluid inlet into the restricted end thereof, and a similarly shaped inner nozzle coaxial therewith and spaced therefrom having an elongated thin outlet orice located immediately adjacent said restricted endof said outer nozzle and having a fluid inlet, the sides and edges of said outer nozzle substantially paralleling the corresponding sides and edges of said inner nozzlev and being offset outwardly of the respective planes thereof, the orifice of the outer nozzle forming a straight angle extension of the inner walls ofthe nozzle adjacent to the orifice.
2. In a device of the class described, a parallelsided, diverging edged outer nozzle, a similarly shaped inner nozzle coaxial therewith and spaced therefrom with an elongated shallow outlet orifice disposed to discharge directly into the smaller end of said outer nozzle, and means for supplying fluids under pressure to said inner nozzle-and to the smaller end of said outer nozzle, respectively, the orifice of the outer nozzle forming a straight angle extension of the inner walls of the nozzle adjacent to the orifice.
3. The method of producing a fiat stream of finely atomized liquid under high pressure which consists in discharging a thin, flat edgewise diverging jet of gaseous material under pressure into a concurrent stream of liquid surrounding the same under comparable pressure, confining the mixture in a relatively thin, flat edgwise diverging form for a distance sufficient to permit substantial atomization of the liquid, and then freeing the atomized mixture.
4. The method of producing a flat stream of atomized mixture which consists in forming -a fiat fan-shaped jet of gaseous material of restricted thickness, utilizing the entraining force of said jet to increase the velocity of a mass of liquid supplied in fiat streams at both wide fiat sides of said jet, immediately shaping the resulting mass of air and liquid into a flat stream, the first thickness of which is alittle greater than that of said jet, and controlling the width and thickness of the resulting stream so that it diverges uniformly in an edgewise direction while the thickness thereof remains substantially constant, the control being exercised over a length of the stream sufiicient to permit substantial atomization of the major portion of the liquid by the air, and then freeing the stream from the control.
5. In a device of the class described, coaxial inner and outer nozzles having closely spaced substantially parallel sides and diverging edges, said outer nozzle having a laterally elongated shallow throat and said inner nozzle having a similarly shaped but slightly smaller outlet orifice immediately adjacent the throat ofwsaid outer nozzle, the outlet orifice of the outer nozzle forming a straight angle extension of the inner wall of the nozzle adjacent to the orifice.
6. In a device of the class described, coaxial inner and outer nozzles With corresponding walls spaced apart, each having a fluid inlet and flat substantially parallel sides, said nozzles having substantially coplanar diverging edges, the outlet orifice of said inner nozzle being laterally elongated so as to discharge a flat diverging stream and being positioned immediately adjacent the inl-et end of said outer nozzle.
7. A device of the class described including fiat coaxial inner and outer fluid nozzles leach having substantially parallel wide sides and diverging narrow edges, the sides and edges of one nozzle being spaced from the sides and edges of the other nozzle transversely of the axis of the device and said outer nozzle having an elongated outlet orifice forming a straight angle extension of the inner walls and edges of said outer nozzle, said outer nozzle in its entirety extending a substantial distance forwardly of said inner nozzle.
8. In: a device of the class described, an inner nozzle having a fiuid inlet, flat substantially parallel sides and diverging edges and an orifice defined by the inner walls thereof, anda similarly vshaped outer nozzle coaxial therewith and with its walls spaced fromthe walls of the inner nozzle transversely of the device, the orifice of the inner nozzle discharging at the throat of the outer nozzle, the orifice of the outer nozzle also defined by the inner walls thereof.
9. 'I'he method of obtaining anatomized mixture which consists in confining a stream of gaseous material under pressure into a flat fanshaped stream, surrounding the same with a thin stream of liquid flowing in the same direction, discharging the gaseous stream into the liquid stream and confining the combined streams in a relatively thin flat fan-shaped stream for a distance sufiicient to permit substantial atomization thereof, and then freeing this mixture.
10. In a device of the class described, an axially elongated outer nozzle having an inlet throat and a, discharge orifice and an elongated intermediate part, said throat, orifice, and part maintaining a wide fiat cross-section substantially from end to end of the nozzle, the width of the nozzle increasing from throat to orifice and the orifice constituting a straight angle extension of the walls of the nozzle, and a relatively short inner nozzle with its sides substantially coplanar with said outer nozzle sides and shaped tovdischarge a wide fiat stream of motive fluid directly into the wide fiat throat of said outer nozzle and axially thereof.
11. The method of producing a stream of finely mass of motive fluid in a flat stream and then discharging the same without changing its gen eral contour or direction of its flow, confining a stream of liquid to be atomized so that it fiows in a hollow flat stream coaxially of and substantially surrounding said motive fluid stream and in dynamic fiow alongside of and intermingling with the discharged motive fiuid stream, confining the combined stream of motive fluid and liquid to be atomized for a substantial distance to a fiat cross-sectional contour with diverging edges flowing coaxially with said initial fiuid and liquid streams, and then discharging said combined stream without changing its general contour or the direction of its flow.
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2606073A (en) * 1949-10-24 1952-08-05 William C Uhri Washing and cleaning gun
US4112568A (en) * 1977-06-01 1978-09-12 The United States Of America As Represented By The United States Department Of Energy Method of fabricating a flow device
US4486644A (en) * 1979-09-14 1984-12-04 Trw Inc. Method for conducting smut-free welding
US4519423A (en) * 1983-07-08 1985-05-28 University Of Southern California Mixing apparatus using a noncircular jet of small aspect ratio
DE19544074A1 (en) * 1995-11-25 1997-05-28 Duerr Gmbh & Co Automatically working cleaning system for workpieces
US20040177754A1 (en) * 2001-06-19 2004-09-16 Huglen Ostein Hc-shielding gas
US20080083434A1 (en) * 2006-10-10 2008-04-10 Henry William Raimund Lavender Washing apparatus
US10060149B2 (en) 2010-01-25 2018-08-28 Keystone Tower Systems, Inc. Tapered spiral welded structure

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2606073A (en) * 1949-10-24 1952-08-05 William C Uhri Washing and cleaning gun
US4112568A (en) * 1977-06-01 1978-09-12 The United States Of America As Represented By The United States Department Of Energy Method of fabricating a flow device
US4486644A (en) * 1979-09-14 1984-12-04 Trw Inc. Method for conducting smut-free welding
US4519423A (en) * 1983-07-08 1985-05-28 University Of Southern California Mixing apparatus using a noncircular jet of small aspect ratio
DE19544074A1 (en) * 1995-11-25 1997-05-28 Duerr Gmbh & Co Automatically working cleaning system for workpieces
DE19544074C2 (en) * 1995-11-25 1999-01-14 Duerr Systems Gmbh Automatically working cleaning system for workpieces
US20040177754A1 (en) * 2001-06-19 2004-09-16 Huglen Ostein Hc-shielding gas
US20080083434A1 (en) * 2006-10-10 2008-04-10 Henry William Raimund Lavender Washing apparatus
US7900642B2 (en) * 2006-10-10 2011-03-08 Rapcorp Limited Washing apparatus
US10060149B2 (en) 2010-01-25 2018-08-28 Keystone Tower Systems, Inc. Tapered spiral welded structure

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