|Publication number||US2270595 A|
|Publication date||Jan 20, 1942|
|Filing date||Jan 6, 1939|
|Priority date||Jan 6, 1939|
|Publication number||US 2270595 A, US 2270595A, US-A-2270595, US2270595 A, US2270595A|
|Inventors||Joseph D Lewis|
|Original Assignee||Joseph D Lewis|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (26), Classifications (7)|
|External Links: USPTO, USPTO Assignment, Espacenet|
\ Jan' 20, 1942-- J. D. I Ewls v 2,270,595
LAWN SPRINKLER Filed Jan. e, 1939- I -lfatented Jan. 20,
LAWN sr lr f.:
Joseph nLowis, Santana-bora, com.. v Application Janoary s, i939, serial No. 249,626
This application is a continuation-in-part ofmy copending application for Lawn sprinkler, Serial No. 188,368, filed February 2, 1938.
This invention relates generally to lawn sprin- Y v,so'ciated therewith and comprising awater supply pipe or conduitbeneath the surface of the ground and provided with intermittently spaced nozzles of the instant invention.
Figure 2 is a'vertlcal substantially cross sectional view of one `form of the nozzles illustrated in Figure l and embodying the present inven-v tion, a portion thereof being illustrated in elevation to more clearly disclose the structure.
s Figure 3 is a plan view of the nozzle shown in Figure 2. Y Y
Figure 4 isa horizontal cross sectional view,
" taken along the lines 4-4`of Figure V2, looking means rotatably associated with the casing provided with an axial bore which is preferably closed at one end and communicates with an elongated discharge aperture to permit the formation of a substantially fan-shaped spray; the means being provided with an orifice positioned adjacent the closed end communicating with the bore for the free passage of water thereto and the entire structurel being so arranged that upon a manipulation of the means in a rotative mano ner the quantity of water passing through the orifice may be denitely controlled.
Another feature of the invention is the pro-` Vision of an incined wall adjacent the juncture of the bore and discharge aperture so as to assist in creating a turbulence in the water and thereby cause the water to leave the discharge aperture in the form of a spray.
A further object of the invention is the provision of a nozzle in a sprinkler system comprising a casing having a frusto-conical aring opening, frusto-conical means positioned in and partially closing the opening, a diaphragm inter- Vposed between the ends of the casing being either movably or rigidly associated therewith and adjustably associated with the frusto-conical means to determine the quantity or tamount of water passing through the restricted`opening; vthe diaphragm having a plurality of apertures of diierent dimensions to. thereby., control the configuration of the pattern formed by the water discharged from the restricted opening.
Numerous other objects and features will, of course, become apparent from the succeeding detailed description of theinventionand from an inspection of the accompanying drawing which illustrates exemplied forms of the invention and wherein:
Figure 1 illustrates a plan view of a plot of ground having a stationary sprinkler system asin the direction of the arrows.V 1
Figure 5 is a vertical cross sectional View of `a modification of the nozzleY illustrated in Figure 2, a portion thereof being shown in elevation to more clearly' illustrate the associated parts.
Figure 6 is a horizontal sectional view, taken along the lines 6 6 of Figure 5, looking in the directionof the arrows. n
Referring now in detail to the drawing, wherein like reference characters designate like parts, and initially considering the construction illustrated in Figures l to 4, inclusive, a plot or seco tion of ground I, arranged to be sprayed or watered, has, imbedded or1positioned beneath thev surface thereof, a water Vfeed'or supply pipe' or conduit 2 of a permanent sprinklersystem which is in direct communication withv a source of water supply. The-supply pipe is illustrated as being convoluted in configuration, but it may be, .if desired, formed to follow any 4predetermined path.
Intermittently spaced or positioned at inter- Y vals along the suppl'ypipeV and in direct com-` munication therewith is a plurality of-sprayer heads or nozzles 3 which are preferably positioned in staggered relation` with one another so as to be, by this particular arrangement, capable of thoroughly spraying lor watering the entire area subjected thereto. Each sprayer head or nozzle 3 desirably comprises a body member, housing or casing 4 preferably of circularconfiguration in horizontal cross section and having one or the lower extremity thereof interiorly threaded to accommodate an` exteriorly threaded associated end or outlet 5 of the supply pipe -2. The upper or free end Vo f the casing is provided with a frusto-conical or outwardly flaring openmg s formingtno discharge opening ofthe oaswall to be engaged by the waterpassing theref over and, in this manner, assist in setting. up
turbulence inior agitata, the water in order to' permit it to be ejected from the discharge opening in the form of a spray.
Disposed axiallyof the casing is a movable meansvor tubular member 9 comprising a head Positioned circumferentially of the diaphragm is a plurality of pairs of circular apertures 20 and 2| forming communications between the` Watersupply and casing bore 1. Both of the apertures 20 and 2| are arranged in angular re'- lation with respect to one another and pref apertures of various diameters is a square or subportion III formed'with a frusto-concal outward- A ly facing surface l I positioned in the casing opening 6. The tubular member surface II is, in the position'illustrated, spaced from the associated frusta-conical casing surface toprovide a 'restricted Water outlet or discharge opening'therebetween, and by reason of this arrangement the water passing through the restricted opening is deflected outwardly and away from the nozzle. The tubular member head is provided adjacent the upper or outer extremity thereof with a milled circumambient protuberance I2 which presents a means whereby the tubular member may be manipulated to govern or control the size of the restricted discharge opening as Well as perform other functions which will be hereinafter more fully described.
Extending inwardly of thevnozzle from the I tubular member head is a stem I3 having' spaced exteriorly threaded endportions, the one or upper of which is turned into an interiorly threaded portion of the head to thereby permit the head` and stern to move or'bemoved as a unitary member. Another objectin forming the head and stem of the tubular member as separate elements or pieces is to afford the assembly of the nozzle, as it will be noted, by referring most particularly to Figure 2, that the stem is provided With an outstanding convolution I4 formed as adouble cone-shaped shoulder which is of stantially square pattern ultimately formed on4 the ground .by the water issuing from the re- 23 provided in the tubular portion head. Conspaced thereabove.
greater extent than the inner and associated extremity of the frusto-concal opening 6 of the cas-'- ing. The convolution I4 has oppositely facing inclined surfaces I5 and I6 formed thereon, the former of which is oppositely disposed and spaced from the seat 8 to form a passageway therebetween communicating with the restricted opening for the egress of the Water. It will be observed that upon a manipulation of the tubular member in a rotary fashion the inclined surface I5 will approach and ultimately engage the seat 8- to positively arrest the passage of water therebetween. The inclined surface I6 also presents a deflecting wall to assist in agitating the Water and directing it toward the wall or seat 8 to be further agitated before passing through the restricted discharge opening.
Positioned within the casing is a disk or diaphragm I'Iv bearing against `,or seated upon a peripheral shoulder I8 formed in the casing ad-J jacent the lower extremitythereof.` Additional means to retain-the diaphragm in bearing relation with the rshoulder is preferably excluded from the structure as this function is performed ically shaped deflecting walls 24 are formed at the juncture of the bore 22 and the elongated `opening so as to present a wall to be struck by the water before it enters the' elongated opening to thereby set up a spray-like eifect of the ejected Water. When the tubular member is in the position illustrated no Water can enter the bore 22, and all of the water passing through the nozzle is exhausted through the restricted discharge opening. However, if it is found desirable to completely change the substantially square pattern formed bythel water passing through the restricted discharge opening the tubular member is manipulated until the inclined surface I5 bears against the-seat 8 at which time orifices 25, positioned adjacent4 the lower extremity o f the bore 22and communicating therewith, will be moved out of thehorizontal plane of the diaphragm. to be positioned in a plane With the', tubular member in its last recited position thefstream of water will be arrested from passing through the restricted discharge opening and Willv'then enter the orifices 25, pass through the bore 2 2, strike the deflecting wall 24, and-be forced through the elongated opening 23 fan-shaped-to form arrectangular pattern. It will, ofcourse, be clearly understood that the tubular member may be so positioned to permit the water to pass through both the restricted discharge opening and the elongated opening to effect a substantially square .and a rectangular pattern and, in this manner,
assure a thorough dampening of the ground immediately adjacent the nozzle as well as that portion of the ground removed therefrom.
Considering now the modification illustrated in Figures 5 and 6 of the drawing, wherein a simplied form of the nozzle is shown which retains some of the advantages and features of the A previously described structure, the nozzle is inby the force of the water acting ina vertical direction against the disk. i The` diaphragm is preferably rotatably associated vwith respect to the tubular member stem so as to lprovide a commodating the lowerextremity of the stem.
dicated generallyl by means of thev reference character 3 and comprises, in thelmain, a housing creasing 4"*I having adjacent the lower extremity thereof an interiorly threaded portion toxaccommodate an'd engage an associated end or outlet .'ia of a water supply pipe'orcondult 2a.
tutedfor any or all of thenozzles 3 inthe ar- Way inwardly of the casing. .Positioned intermediate the ends of the casingis an integrally formed disk, walll or diaphragm I'Ia defining-the Itwill, of course, be clearly understood that Y the nozzle 3** may be, if found desirable, substiinner extremity of the bore le. Circumferentially positioned pairs of circular apertures and 2I form communications between the feed or water supply pipe 2 and the bore 1a; the apertures 20'L beingV desirably spaced ninety `degrees apart and being of greater diameter than `the apertures 2|'i which are positioned between the apertures 20, reference beinghad to Figure 6 lof the drawing. This nozzle likewise is arranged and constructed todistribute Vor control the Water passing therethrough to have the water ultimately form a pattern of square or substantially square configuration upon the ad- "jacent ground. l.
Disposed axially of the casing is a movable -3 ed to be connected at one end to a supply pipe and having at its opposite end a frusto-conical flaring opening, frusto-conical means for partially closing said opening, a diaphragm interto the directionof the jets issuing from the means 9a comprising a head portion Illa of submeans head is flared downwardly and outwardly to present a deflecting wall ISB positionedin spaced relation to and partially overlying or extending through the vertical plane of the apertures 2l)EL and 2I. By this arrangement, therefore, the water passing through the apertures Il and 21 will strike the wall I6* to create a turbulence '-or disturbance therein and continue upwardly through the bore 'la and ultimately through the restricted discharge opening in the form of a spray or mist. In order to maintain the movable means 9a in a predetermined position vertically of the nozzle, the head portion is provided with a downwardly extending stern exteriorly .threaded and projecting through a correspondingly threaded axially disposed hole I9a in the diaphragm. By manipulating the movable means in a rotative direction either clockwise or counter-clockwise, as viewed from the top, the extent of the restricted discharge opening may be d enitely governed. An outwardly facing moon-shaped indenture 26 is provided in the movable means head for the application or acopenings in said diaphragm. 2. A sprinkler head comprising a casing adapted' to be connected at-one end to a supply pipe and having at its opposite end a frusta-conical `ilaring opening, means for partially closing said opening, a diaphragm interposed between the ends of said casing, and a plurality of holes formedin said diaphragm, certain of said holes being of larger diameter than others, the holes of larger diameter being arranged in-a square pattern whereby a patterny of water of substantially `the same shape will be discharged from the restricted end of the casing.
3. A sprinkler head comprising a casing adapted to be connected at one end t'o a supply pipe and having at its opposite end a frusto-conical flaring opening, frusta-conical means for partially closing said opening, a diaphragm disposed between the ends vof said casing, and a plurality of pairs of apertures formed'in said diaphragm, certain of said apertures being of larger diameter than the others and intermittently spaced ninety/degrees apart with the smaller of the apertures spaced therebetween, the apertures being thus arranged to have a stream of water pass therethrough and be'ejected from the sprinkler head to ultimately form a pattern of substantially square configuration.
4. A sprinkler nozzle comprising a casing adapted to be connected at one end to a supply pipe and having at its other end a frusto-conical flaring opening, frusto-conical means for partially closing said opening, a diaphragm vinterposed between the'ends of said casing, said frusto-conical means being connected and axially adjustable relative to said diaphragm to determine the amount of water passing through the opening commodation of a screw driver or some such implement to thereby provide a means whereby the movable means may be rotated. The stem I3 is desirably formed with a vertically disposed or extending slot I3"Which substantially divides the stem into-counterpart segmental members, semi-circular in horizontal cross section. Before the movable means is introduced 'into the nozzle casing bore an instrument is introduced in the slot |3 and the segmental membersl of the stemare spread apart a slight distance so that, uponapplication of the movable means. a
' -radial force will Vbe exerted by the segmental between said means and said casing, and a plurality of apertures of diierent dimensions in said diaphragm for determining the configuration of the pattern formed by the water discharged through said restricted opening, said vrestricted opening being angularly disposed to the direction of the jets from the apertures in said diaphragm.
5.' A sprinkler nozzle comprising a adapted to be connectedat one end to a supply pipe and having at its other end a frusta-conical opening, frusto-conical means extending through and restricting said opening and having an axially disposed bore communicating with a discharge opening in said means, a diaphragm positioned between the ends of said casing, said frustoconical means being associated with and axiallyV Y mine the amount of water passing through said restricted opening, a plurality of apertures in said diaphragm permitting the passage of water therethrough and through said restricted open- .i ing to form a particular pattern, said restricted opening being angular-1y disposed to .the direction of the jets issuing from said diaphragm, and ports lin said means adjacent one end of said boresaid ports being so positioned as to normally'lie'in the plane of said diaphragm and to be moved-therefrom on closing of said restricted opening, whereby, upon direct manipulation of said means, said restricted opening will be closed andsaid ports will be moved out ofthe plane of said diaphragm to permit the water to enter said bore and be ejected through said discharge openconfiguration.` l
-6. A sprinkler nozzle comprising a casing adapted to be connectedat one end thereof to a dierent dimensions in said diaphragm for determining the configuration of the pattern formed by the water.
7. A sprinkler nozzle comprising a casing adapted to be connected at one end thereof to a water supply pipe and having at its other end a flared discharge opening, means associated with said casing having a deflector head positioned inv l ing in said/means to form a pattern of different ends of said casing, said means being connected lie in the plane of said diaphragm and toA be moved therefrom on closing of said restricted opening, whereby, upon direct manipulationoi said means, said restricted opening will be closed and said ports-will be moved out oi the plane of said diaphragm to permit the water to enter said bore and be ejectedA from vsaid elongated discharge opening to form a pattern of diil'erent 'connguratiom A 9. A sprinkler nozzle comprising a casing adapted to be connected at one end thereof to a. water supply pipe and having at its other end a flared water discharge opening, means associated with said casinghaving a deflector head positioned in and Ipartially closing said discharge opening, a diaphragm interposed between the and axially adjustable relative to said diaphragm and partially closing said 'discharge opening, a ,j
diaphragm interposed between the ends of said casing, said means being connected `and axially adjustable relative to said diaphragm to determine the amount of Water ejected from said opening, and a plurality ofapertures o f different dimensions in said diaphragm for determining the configuration of the pattern formed by the water; the larger of said apertures being spaced apart ninety degrees and theA smaller of said apertures being interposed between said larger apertures to thereby permit the yformation of a substantially square pattern. w
8. A sprinkler nozzle, comprising ja casing Q trolled.
adapted to be connected at one end ,to a supply pipe and having at its other end a frusto-conical opening, frusto-conical means extending through and restrictingsaid opening and having an axially disposed bore, said bore being closed at one end and communicating with an elongated discharge opening, a diaphragm positioned between the ends of said casing, said frusto-conical means being associated with and axially adjustable relative to said diaphragm to determine the amount of water passing through said restricted opening, a plurality of apertures .in said diaphragm permitting the passage of water therethrough and through said restricted opening to form aparticular pattern, said restricted opening being an-v gularly disposed to the direction of the jets issuing from the aperture in said diaphragm and ports in said means adjacent one end of said bore said jets being so positioned as to normally to determine the quantity of water ejected from said opening, and a deflector wall formed on said means between said diaphragm and deflector head being of greater extent than the normally clear opening of said discharge opening, said diaphragm having intermittently spaced openings of different dimensions for determining the configuration of the patternformed bythe water.
'10. A sprinkler nozzle comprising a ca'sing adapted to be connected at one end thereof -to a water supply pipe, meansrotatably associated with and longitudinally movable relative to said casing and having an axial bore closed at one end and communicating with an elongated discharge aperture intersecting the oppositev end of said bore, a deilector wall formed in said means at the juncture of said bore and discharge aperture, a port in said means adjacent the inner end thereof and communicating with said bore and' means so cooperating with said port that upon longitudinal movement of said first named means in respect of` said casing, thequantity of Water entering said port from said casing will be conjmunicating with an elongated discharge slot formed in said head and intersecting the outer extremity of said bore, a tapered deflector wall formed in said head and surrounding the juncture of said bore and discharge slot, a port communicating with said bore adjacent said closed end means so cooperating with said port that upon longitudinal movement of said ltubular member, the water entering said port from said casing may be controlled. j
JOSEPH D. LEWIS
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2515598 *||Feb 13, 1946||Jul 18, 1950||Hansen Harvey Gordon||Spraying device|
|US2527950 *||Apr 17, 1947||Oct 31, 1950||Maness Harvey De Witt||Spray head for lawn sprinkler systems|
|US2546120 *||Feb 12, 1947||Mar 20, 1951||Boroughs Charles M||Sprinkler head|
|US3022014 *||Nov 12, 1958||Feb 20, 1962||Young Stephen A||Shower head|
|US4550876 *||Nov 12, 1982||Nov 5, 1985||Marvin Glass & Associates||Sprinkler toy|
|US4585175 *||Jun 25, 1984||Apr 29, 1986||Speakman Company||Fluid flow control in flow line branch|
|US4840312 *||Nov 20, 1987||Jun 20, 1989||The Toro Company||Sprinkler nozzle module|
|US4842201 *||Nov 16, 1987||Jun 27, 1989||Hunter Edwin J||Rotary stream sprinkler unit|
|US4867379 *||Jun 26, 1986||Sep 19, 1989||Hunter Edwin J||Rotary stream sprinkler unit|
|US5852835 *||Dec 14, 1995||Dec 29, 1998||Kohler Co.||Plumbing nozzle|
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|U.S. Classification||239/443, 239/456, 239/DIG.100|
|Cooperative Classification||B05B1/265, Y10S239/01|