US1598541A

US1598541A - Spray nozzle

Info

Publication number: US1598541A
Application number: US611641A
Authority: US
Inventors: Fingal C Orr
Original assignee: Individual
Current assignee: Individual
Priority date: 1923-01-09
Filing date: 1923-01-09
Publication date: 1926-08-31
Anticipated expiration: 1943-08-31

Description

Aug. 31 1926. 1,598,541A

F. C. ORR

SPRAY NOZZLE Filed Jan. 9, 1923 Patented Aug. 31, 1926..

UNITED sTATEs FINGAL C. OBR, OF SAN GABRIEL, CALIFORNIA.

SPRAY NOZZLE.

Application filed January My invention relates`to a spray nozzle that is especially designed for use in conuecl tion with the sprinkler systems for lawns, gardens, golf courses, orchards or the like and also for sprinkling systems that are installed in and upon buildings as a protection against fire.

The principal objects of my invention are. to generally improve upon and simplify the construction of the existing forms of sprinkling spray nozzles; to provide a spray nozzle that will automatically ut-ilize the force of the water or liquidI passing therethrough; to impart an intermittent or step by step rotary movement to the nozzle so that the latter will effectually distribute the discharged water over a considerable area and, further, to provide a spray nozzle that may be easily and cheaply produced and installed, wholly automatic in its operation and very effective in performing its intended functions.

Vitli the foregoing and other objects in view, my invention consists in certain novel features of construction and arrangement of parts that will be hereinafter more fully described and claimed and illustrated in the accompanying drawings inv which:

Fig. 1 is an elevational view of a spray nozzle of my improved construction with a portion thereof invertical section.

Fig. 2 is a front elevational view of the upper portion of the yimproved spray nozzle.

Fig. 3 is a plan view.

Fig. t is an elevational Viewl of a modified form of the spray nozzle. l

Fig. 5 is a horizontal section taken on the line 5`5 of Fig. 4.

Fig. 6 is an elevational view of a further modified form of the spray nozzle.

Referring by numerals to the accompanying drawing which illustrate a practical embodiment of my invention, 10 designates the upper end of a vertically disposed supply pipe to which is secured a reduction nipple 11 and-screw seated in the upper end of said nipple is a short tubular member 12.

Arranged to rotate freely within member 12 is the lower end of a curved tubular member 13, having flanges 14 at the ends of member 12, and secured in the lower end of a 'nipple 11 and extending upwardly into the lower portion of member 13 is a tubular member 15.

9, 1923. Serial No. 611,641.

The space between the lower portion of

nipple

11 and 15 is filled with a suitable lubricant that is introduced through a grease cup 16 and the latter being seat-ed in nipple 11.

This lubricant, in addition to forming a packing to prevent leakage of water through the rotating joint, thoroughly lubricates the bearing surfaces between the member 13 and

members

12 and 15.

The upper end of member 13 carries a hollow block 17, from the outer face of which 4projects a jet nozzle 18.

Pivoted to the upper portion of block 17, is the upper end of a stirrup 19, the lower end of which carries a weight 2O so that said stirrup and weight constitute a pendulum that swings freely upon the block 17.

Secured to and projecting forwardly from one of the arms of the stirrup 19, and at Iits upper end, is an arm 21, the forward portion 22 of which is bent laterally so that it normally occupies an inclined; plane that crosses the path of travel of the jet of water that issues from nozzle 18.

The inner face of this member 22 which may be termed a vane, `is substantially spoon-shape with its concave face presented toward the end of nozzle 18.

Where the form of spray nozzle as just described is used, the jet of water issuing from nozzle 18 impinges against the concave surface of vane 22, and the pressure resulting from such impingement, imparts rotary motion to lmember 13 and the parts carried thereby.

As soon as member 13 gains sufficient impetus or speed of rotation, the pendulumlike member will swing outward under centrifugal force, and as such action occurs,` f

vane 22 will move upwardly out of the path of travel of the jet of water, with the result that the member 13 will tend to stop rotating and said pendulum and vane will return to their normal positions.

The movements just described will then be repeated and, as a result, member 13 and parts carried thereby will be intermittently rotated upon supply pipe 10 and as vane 22 moves upward out of the path of travel of the jet of Water from nozzle 18, a. full stream or jet of water will be discharged and thrown a considerable distance away from supply pipe 10 and while the jet of water impinges against vane 22, said jet will be spread or diffused in spray form and fall to the ground within a limited or relatively small radius about the pipe 10.

In the modified construction illustrated in the Figs. 4 and`5, a bell crank 25 is pivoted on the lower portion of member 13 and the outer end of said bell crank terminates in a hook 26 that is adapted to engage the lower portion of the pendulum and rcstrain'the same against outward swinging movement.

The inner lower end of the bell crank carries a roller 27 that rides on the edge of a cam 28 that is secured to a fixed part of the device, ,for instance, the upper portion of member 12.

While roller 27 is on the lobe or high portion Iof the cam, hook 26 is held out of engagement with the pendulum and the latter may,v swing freely as hereinbefore described.

When roller 27 rides onto the low portion ofthe cam bell crank 25 will swing into position so that hook 26 engages the lower portion of the pendulum and holds the same so that vane 22 is retained in position directly in' the path of travel of the jet of water, and as a result, the member 13 and parts carried thereby will rotate until roller 27 rides onto the lobe of the cam and the change of position of the bell crank 25, disengages hook 26 fromthe pendulum.

Thus the'devicemay be caused to sprinkle throughout`an arc ofrelatively long radius and through' an arc of much shorter or limited radius while circumscribing a complete circle about the supply pipe.

Such arrangement may be advantageously used adjacent to the edge of a lawn, garden or orchard.

In the modified arrangement illustrated `in Eig. 6,-a vane 29 is advantageously positioned on the oppositeside of the pendulum from the vane 22 and which adjustable vane may be elevated to the position shown in Fig. 6 so that .it wilL move into the path of travel ofthe jet'of water when the lower portion oi the pendulum swings outwardl Such arrangement tends to spray the stream or jet of water issuing from the nozzle 18.

A spray nozzle of my improved con-iA struction isurelatively simple, may be easily and cheaply produced, is entirely automatic in operation and is particularly adapted for spraying Water .onto lawns, gardens, orchards. golf courses and the like. A

It will be. understood that minor changes in size, formand construct-ion of the various parts ofmy improved spray nozzle may be made and substituted for those herein described without departing from the spirit of the invention, the' scope of which is set forth in the appended'claims.- I claim as my invention:

1. In a spray nozzle, a-jet nozzle mounted for rotation on .a vertical axis and discharging a stream at an angle to its axis oi. rotation, a pendulum pivotally connected to said jet nozzle, and a vane carried by said pendulum and normally occupying a position in the path of travel of the jet of water that issuesfrom said.jet nozzle whereby the force of the impingement of the jet of water from said nozzle against said vane will impart rotary -motion to said jet nozzle.

2. In a spray nozzle, a jctqnozzle mounted for rotation on a vertical axis and discharging a stream at an angle to its axis of the jet of water that issues from said jet nozzle whereby the force of the impingement of the jet of water from said nozzle against said angularly positioned member will impart rotary motion to said jetnozzle;

3. The combination with a jet nozzle mounted to rotate on a vertical,h axis and to discharge a stream at an angle to its axis of rotation, or a weighted swinging member, associated with said nozzle and adapted to swing under the inuence of centrifugal force resulting from the rotation of said jet nozzle and an inclined vane carried by said swing-l ing member and adapted as the latter swings to move across the path of travel of the. jet

of water issuing fromv said jet nozzle where-4 by the force of the impingement ofthe jet ot water against said inclined vane will impart rotary movement to` said jet nozzle.

4. The combination with a jet nozzlei mounted to rotate onI a vertical axis and to discharge a stream at an angle to its axis of-rotation, of a weighted member pivotally mounted on said jet nozzle so as to swing radially relative to the axis of said nozzle and an inclined vane carried by said weighted member and adapted as the latter swings to move into and outA of the path' of travel of the jet'that issues fromv said nozzle whereby the force 'of the impingement of the jet of water against` said'inclined vane, will impart rotary movement to said jet nozzle.

5. The. combnation with a jet nozzle, of a pivotally mounted pendulum. weighted vane associated with said jet nozzle mounted to rotate on a vertical axis and to discharge a'stream at an angle to its axis of rotation, and normally positioned to be engaged by the jetof waterissuing therefrom to impart rotary movement to said vjet nozzle, said pendulum being adapted to be actuated by centrifugal force to intermittently move saidhvane out of the path of the jet.

In testimony whereof .I have signed my name to this specification.

FINGAL CQ can.