US1868758A - Suction producing device - Google Patents
Suction producing device Download PDFInfo
- Publication number
- US1868758A US1868758A US319702A US31970228A US1868758A US 1868758 A US1868758 A US 1868758A US 319702 A US319702 A US 319702A US 31970228 A US31970228 A US 31970228A US 1868758 A US1868758 A US 1868758A
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- US
- United States
- Prior art keywords
- nozzle
- jet
- chamber
- opening
- discharge
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04F—PUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
- F04F5/00—Jet pumps, i.e. devices in which flow is induced by pressure drop caused by velocity of another fluid flow
- F04F5/44—Component parts, details, or accessories not provided for in, or of interest apart from, groups F04F5/02 - F04F5/42
- F04F5/46—Arrangements of nozzles
Definitions
- My invention relates to suction producing devices and particularly to those of thejet type by which fluids are sucked into such 'device by reason of the reduced pressure therein and forced out of such device bythe velocity of the jet which produces such' reduced pressures.
- the particular object of my -invention is to provide a device of this character capable of producing a relatively high reduced pressure, one capable of being set to the desired pressures over a relatively wide range, and one which is adapted to maintain such predetermined reduced pressure Without intermission and without fluctuation.
- the discharge outlet is further sealed by a secondary flared portion of lesser inclination thansuch primary flared mouth, which second flared portion is adapted to receive and hold a portion of the liquid from such jet'in relative quiescence.
- Fig. 1 is a section thru such apparatus
- Fi g. 2 is a larger scaled diagrammaticillustration of the relative alinement of such nozzle and the discharge outlet for the-jet emitted from such nozzle.
- Such'apparatus comprises a body a defining a spherical chamber a within such body.
- a nozzle Z2 enters thru the sides of such body a and is screw-threaded therein at c v to provide a fluid-tight joint.
- a tip (Z is arranged, which restricts the size of the jet orificesubstantially.
- Such tip d is relatively narrow and the inner chamber.
- the inlet openingg is arranged mouth of such nozzle.
- a supply pipe 6 provided with an adjustable valve. f is connected to such nozzle be An inlet pipeg admits the fluid to'be propelled thru the inlet opening, g".
- the nozzle 5 isarranged to extend in a vertical plane'and diametrically thrufithe chamber a, the orifice of such nozzle being arranged inv close proximity to the bottom of such in a horizontal plane substantially normal to theplane of such nozzleand enters thru the wall of the body a rearwardlyof the
- the discharge opening/r from such chamher a is, in the main, of uniform diameter. and'is proportioned relatively to the bore 032 of the-nozzle tipd. That is; in one size device I provide a nozzle tip having a bore being arranged "of an inch from the mouth ofsuch bore and in exact alinementtherewith, the nozzle tip being about of an" inch 1 thick. I- find that the jet produced by such :nozzle tip will expand and will strike the surface and completely fill the discharge opening h ata' point substantially ⁇ a of an; inch below itsmouth. Above such point,
- such innersurface of the body a I produce a secondary flare h2fromJs1ich primary flare h extending from the axis of such opening it approximately at an inclination of 60.
- The'jet'producedby thenozzle 5 provided witha tip d has an outer surface comprising minutejwaterparticles which are directly forwarded by the main portion of the jet but diverge slightly therefrom.
- Th angle f liOO having a pipe y divergence of such outer broken up portion is sufiicient, when the parts are proportioned as heretofore set out, to strike the primary flared portion it slightly inwardly of the point 2' where the secondary flare 7L2 commenccs. ihe entire length of such flared mouth bounded by the portion h is thus filled with such finely divided particles of water or spray which move forwardly with the jet and tend to seal the same with the bore of the dischargeoutlet h.
- a characteristic of such apparatus thus described is the relatively high vacuum produced when the inlet opening 9 is closed to prevent fluid from being drawn into the chamber a.
- a device ofthe character described comprising a casing defining a chamber, intake and discharge openings communicating with such chamber and entering thru the ed in the tip of suchnozzle and adapted to contract the discharging stream emitted from such nozzle, the bore of such flange being of a size corresponding approximately to one-half of the thickness thereof and the bore of such discharge opening being spaced from the discharge opening a distance approximately four times the diameter of the aperture of the noz' zle, the mouth of such discharge opening being provided with a primary outwardly flared portion.
- a device of the character described comprising a casing defining a chamber, intake and discharge openings communicating with such chamber and entering thru the walls of such casing, and a liquid discharge nozzle also entering thru the walls of such casing and depending centrally into such chamber and alined with such discharge opening an inwardly projecting relatively thin circularly bored flange located in the tip of such nozzle and adapted to contract the V discharging stream emlttedfrom such n0zzle, the bore of such flange and the bore of such discharge opening being proportioned and spaced 1n the manner described, the
- a device of the character described comprising a casing defining a chamber, intake and discharge openings communicating with such chamber and entering thru the walls of such casin and a liquid discharge nozzle also entering thru the walls of such ing, an inwardly projecting relatively thin sharp-cornered, circularly bored fiangelocat-
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Nozzles (AREA)
Description
A. C. NELSON SUCTION PRODUCING DEVICE 5 July 26, 1932.
Filed Nov. 15, 1928 V INVENTOR 4 22 arewC/Velw n ATTORN Y Patented July 26, 1932 UNHTED STATE-s- ANDREW c. nELson, orroR'rLAnn, onneon sucrronritonucine nnvrcn T Application fildNovember 15 192B swarm. 319302.
My invention relates to suction producing devices and particularly to those of thejet type by which fluids are sucked into such 'device by reason of the reduced pressure therein and forced out of such device bythe velocity of the jet which produces such' reduced pressures. x
The particular object of my -invention is to provide a device of this character capable of producing a relatively high reduced pressure, one capable of being set to the desired pressures over a relatively wide range, and one which is adapted to maintain such predetermined reduced pressure Without intermission and without fluctuation.
I attain this object by providing a nozzle capable of emitting ajet ofrelativelyhigh contraction and with a relatively large degree of surface agitation and aline an outlet with such nozzle in such a manner that the jet discharged into the latter is arranged to expand and completely fill such discharge opening and the agitated surface ofsuch jet is adaptedto be received in the flared mouth of such opening to seal the same and prevent variations and reduced pressures. The discharge outlet is further sealed by a secondary flared portion of lesser inclination thansuch primary flared mouth, which second flared portion is adapted to receive and hold a portion of the liquid from such jet'in relative quiescence. p
The details of my invention and the mode ofoperation thereof are hereinafter described with reference to the accompanying drawing, in which:
Fig. 1 is a section thru such apparatus; and
Fi g. 2 is a larger scaled diagrammaticillustration of the relative alinement of such nozzle and the discharge outlet for the-jet emitted from such nozzle.
Such'apparatus comprises a body a defining a spherical chamber a within such body.
A nozzle Z2 enters thru the sides of such body a and is screw-threaded therein at c v to provide a fluid-tight joint. In the mouth of such nozzle Z) a tip (Z is arranged, which restricts the size of the jet orificesubstantially. Such tip d is relatively narrow and the inner chamber. The inlet openingg is arranged mouth of such nozzle.
of an'inch in diameter and a discharge [opening [use of an inch in dlameter, the tlp corner d th re f sharp to produce a "jet comparable to a square-ring fire nozzle, which 7, produces a jet of relatively high contraction U a and "has the peculiarcharacteristic of having the outer portion of the jet broken up into minute particles. A supply pipe 6 provided with an adjustable valve. f is connected to such nozzle be An inlet pipeg admits the fluid to'be propelled thru the inlet opening, g". The nozzle 5 isarranged to extend in a vertical plane'and diametrically thrufithe chamber a, the orifice of such nozzle being arranged inv close proximity to the bottom of such in a horizontal plane substantially normal to theplane of such nozzleand enters thru the wall of the body a rearwardlyof the The discharge opening/r from such chamher a is, in the main, of uniform diameter. and'is proportioned relatively to the bore 032 of the-nozzle tipd. That is; in one size device I provide a nozzle tip having a bore being arranged "of an inch from the mouth ofsuch bore and in exact alinementtherewith, the nozzle tip being about of an" inch 1 thick. I- find that the jet produced by such :nozzle tip will expand and will strike the surface and completely fill the discharge opening h ata' point substantially {a of an; inch below itsmouth. Above such point,
namely'fg of an inch below the" innersurface V of thebody ayif continued in a line across the mouth of, such discharge outlet h, '1 flare such discharge outlet at an angle substantial- 1y 30 from the axis of such opening it, such flared portion being referred to in the drawing as 7i". About of-an inch inside'of.
such innersurface of the body a I produce a secondary flare h2fromJs1ich primary flare h extending from the axis of such opening it approximately at an inclination of 60.
The'jet'producedby thenozzle 5 provided witha tip d has an outer surface comprising minutejwaterparticles which are directly forwarded by the main portion of the jet but diverge slightly therefrom. Th angle f liOO having a pipe y divergence of such outer broken up portion is sufiicient, when the parts are proportioned as heretofore set out, to strike the primary flared portion it slightly inwardly of the point 2' where the secondary flare 7L2 commenccs. ihe entire length of such flared mouth bounded by the portion h is thus filled with such finely divided particles of water or spray which move forwardly with the jet and tend to seal the same with the bore of the dischargeoutlet h. I
In the secondary flare bounded by the portion 752 relatively quiescent liquid collects, but which tends to drain into the outlet it. The force of the finely divided liquid drawn against the flared mouth it seemingly prevents the escape of the major portion of the liquid thus collected and ii any does drain od into such opening it is immediately replaced.
A characteristic of such apparatus thus described is the relatively high vacuum produced when the inlet opening 9 is closed to prevent fluid from being drawn into the chamber a. I have been able to produce conditions of reduced pressure equal to 29 inches ofmcrcury, such devices being capable of sustaining unvarying reduced pressures from atmospheric pressure to such relatively high reduced pressures, merely by varying the fluid pressure in the supply pipe for the nozzle Z). a
To check the reduction in pressures within the chambera I provide a pressure gauge y' opening intotthe chamber at 70. l i
I claim: 7 V
1. In a device ofthe character described comprising a casing defining a chamber, intake and discharge openings communicating with such chamber and entering thru the ed in the tip of suchnozzle and adapted to contract the discharging stream emitted from such nozzle, the bore of such flange being of a size corresponding approximately to one-half of the thickness thereof and the bore of such discharge opening being spaced from the discharge opening a distance approximately four times the diameter of the aperture of the noz' zle, the mouth of such discharge opening being provided with a primary outwardly flared portion.
3. In a device of the character described comprising a casing defining a chamber, intake and discharge openings communicating with such chamber and entering thru the walls of such casing, and a liquid discharge nozzle also entering thru the walls of such casing and depending centrally into such chamber and alined with such discharge opening an inwardly projecting relatively thin circularly bored flange located in the tip of such nozzle and adapted to contract the V discharging stream emlttedfrom such n0zzle, the bore of such flange and the bore of such discharge opening being proportioned and spaced 1n the manner described, the
mouth of such discharge opening being provided with a primary outwardly flared por tion, and with; a basin-like secondary outing such primary POItlOIL In testimony whereof he affixes his signa wardly flared portion joining and surroundwalls of? such casing, and a liquid discharge nozzle also entering thru the walls of such casing and depending centrally into such chamber and alined with suchdlscharge opening, an inwardly projecting relatively thin I 7 sh arp-cornered. circularly bored flange located in the tip of such nozzle and adapted to contract the dischargingstream emitted from such nozzle, the bore of such flange being of a size corresponding approximately to onehalf of the thickness thereof and the bore of such discharge opening being spaced from the discharge opening a distance approximately four times the diameter of the aperture of the nozzle. l
2. In a device of the character described comprising a casing defining a chamber, intake and discharge openings communicating with such chamber and entering thru the walls of such casin and a liquid discharge nozzle also entering thru the walls of such ing, an inwardly projecting relatively thin sharp-cornered, circularly bored fiangelocat-
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US319702A US1868758A (en) | 1928-11-15 | 1928-11-15 | Suction producing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US319702A US1868758A (en) | 1928-11-15 | 1928-11-15 | Suction producing device |
Publications (1)
Publication Number | Publication Date |
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US1868758A true US1868758A (en) | 1932-07-26 |
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ID=23243336
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US319702A Expired - Lifetime US1868758A (en) | 1928-11-15 | 1928-11-15 | Suction producing device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3012251A (en) * | 1961-12-12 | Tub and shower fixtures | ||
US4597716A (en) * | 1984-06-22 | 1986-07-01 | Milton Industries, Inc. | Air activated vacuum pump |
US11396881B2 (en) * | 2017-04-29 | 2022-07-26 | Hui Ying | Bladeless fan and air outlet cylinder thereof |
-
1928
- 1928-11-15 US US319702A patent/US1868758A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3012251A (en) * | 1961-12-12 | Tub and shower fixtures | ||
US4597716A (en) * | 1984-06-22 | 1986-07-01 | Milton Industries, Inc. | Air activated vacuum pump |
US11396881B2 (en) * | 2017-04-29 | 2022-07-26 | Hui Ying | Bladeless fan and air outlet cylinder thereof |
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