US1433255A

US1433255A - Two-fluid spray nozzle

Info

Publication number: US1433255A
Application number: US370391A
Authority: US
Inventors: Harry D Binks
Original assignee: Individual
Current assignee: Individual
Priority date: 1920-04-01
Filing date: 1920-04-01
Publication date: 1922-10-24
Anticipated expiration: 1939-10-24

Description

H. D. BINKS.

TWO FLUID SPRAY NOZZLE. w APPLICATION FILED APR. 1. 1920.

' Patented Oct. 241, 1922.

Patented Unit, H ll, lldfillt r e", em y 1. HARRYD. BINKS,'OF RIVER ,IlEOBIEEElT, IBILLINOIS.

TVVO-JEL'UID SPRAY NOZZLEL Application filed a zrn 1,

To all whomz't may concern:

Beitlrnown that 1, Henry D. Bums, citizen of the United States, residing atltiver-x .li oreshin the county of Cook and Fitate o Illinois, have invented certain new and useful improvements in a Two-Fluid tlpray lllozzle, and I do hereby declare the following to be a full, clear, and exact description make and use the same.

of the invention, such. as will enable others skilled in the art to which 1t appertains to My invention relates to mg or fatonnzlng liquids, and its generalobects include those of providing a simple and cheaply constructed nozzle for such ..purposes which caneasily be cleaned and which can readily be manipulated to vary both tl e density of the spray, the angle defined by the spray and the distance to which the spray is projected.

In some of its important commercial pec'ts, my invention aimsto provide a spray from the pipin nozzle suitable for use with two fluids, one of which fluids may be air or steam, and in this aspect a ms to. provide a nozzle of simple construction which can readily be adjusted without disconnecting it from the sources or fluid supply, forvarying the effect produced by the nozzle. Furthermore, my invention aims to provide a nozzle for the general purposes above named which can readily be taken apart without disconnecting the same or and which will permit an easy cleaning of its operative parts. Still further and more detailed objects will appear from. the following specification and lrom the accompanying drawings, in which Fig. 1 is an elevation of a nozzle embodymy invention.

f Fig. 2 is an enlarged and central logitudirial section through the same.

Figs. 3 and 4t are transverse sections taken alongthe correspondingly numberedlines in Fig. 2.

Fig. 5 is a fragmentary section similar to the forward end of Fig. 2 and showing the nozzle as ad usted :tor pro ectlng a long and slender spray of llquid, as tor example in spraying oil into a furnace.

lln the embodiment oi" the drawings, the

. nozzle of my invention consists of three nozzles for spray- 1320. seriarno. eraser.

parts, namely a tubular body 1, a forward cap 2 threaded upon one end of the same, and arear cap 3 threaded upon the other end of this tubular body. The body 1 has a pairoit lateral inlets a and 5 leading to the twoopposite end portions of its bore, which portions are separated by a partition 6 ex;- tending across the bore. This partition carries an inner tube 7 which is otherwise freely spaced from the bore oi the body and which. desirably projects both ends beyond the latter. This inner tube is closed at itsrearend andis equipped near "this rear end with lateral ports 8, and near its ton ward end with a set of lateral ports 9.

The sorts com orisino' each of these sets are preferably out or" alineinent with the axis of the nozzle, and desirably substantially tangential oil? the bore of the inner tube, utter the. manner shown in 3 and 4:. The rear cap 2 desirably has a shoulder forma tion engagingthe rear end oi? the valve body so that the inlet 5 is connected to the bore 0 the inner tube only through the rear ports The forward cap 2 is so threaded upon the valve body that it may be adjusted longitudinally ol? the latter and may therefore either be screwed up tightly against the forward end of the inner tube, as shown in .2, or maybe moved away from the latter as Q will cause the entering liquid to rotate within the bore o1 the inner tube, so that the liquid will advance spirally an d it otherwise unailected would issue from, the mouth 10 or the nozzle in a rather dense and somewhatconical hollow stream undesirable for most purposes. To break up the density of this stream and to increase the distance to which the liquid is projected from the nozzle, ll introduce air or steam through the companion inlet l. This air or steam is de sirably supplied at a pressure considerably greater than that of the liquid, and in impacting against the spirally advancing jet of liquid within the inner tube, the air or steam both breaks the liquid up into fine particles and greatly increases the distance for which the liquid is projected from the mouth of the nozzle. Thus, I have found in practice that I can readily atomize various liquids into a very finely divided spray, and by suitably proportioning the length of the outlet portion between the mouth 10 and the extreme forward end of the nozzle in proportion to the bore of the latter, I can obtain a desirable angle for the resulting spray or mist. Consequently, my nozzle readily lends itself to the production of finely diyided sprays for use in chemical operations, for applying palnts or the hire, and for the molstenlng of Various objects.

Moreover, I can readily control both the density of the spray and the angle of projection of the latter to a considerable eX- tent by varying the pressures at which the fluids are supplied to the inlets land 5,

and particularly by varying the pressure of the fluid supplied through the high-pressure inlet 4% and the forward ports. If a still narrower angle of spray and greater length of projection is desired, I can readily obtain this by unscrewing the forward cap 2 more or less. By so doing, after the manner of Fig. 5, I permit the fluid entering the inlet l not only to enter the inner tube through the ports 9, but also permit the high-pressure fluid to reach the mouth 10 of the nozzle more readily through the gap be I tween the cap 2 and the forward end of the inner tube. With the parts thus adjusted,

1 be obvious from Fig. 5 that the liquid ente ing through the inlet 5 and the ports 8 is spirally advanced within the bore of the inner tube, and that the spirally advancing jet is subjected to the impact and influence ot fluid'admitted by the inlet 4 and entering a more forward portion of the inner tube through the ports 9. As the resulting jet passes across the gap between the l'orward end of the inner tube and the cap 2, this j-it is surrounded by another but non-rotating portion of the fluid which entered through the inlet 4 and is therefore sub jected to a peripherally applied pressure directed radially inward of the jet. This pressure cooperates with the influence to which the particles comprising the jet had previously been subjected, and with the aperture 10 of the cap in producing effects which could not be obtained without such an added and peripherally applied or contractile fluid pressure. For example, I have found that with liquids supplied through the inlet 5 under a head of only one foot, and with a twenty pound air pressure supplied through the inlet 4, I can readily project a fine spray of liquid for a distance of about eight feet; and that I can vary both the angularity of the spray and the distance to which it is projected, by varying the air pressure and the extent to which the cap is unscrewed. It will be obvious from the above that the nozzle of my invention is exceedingly sunple in construction, involving only three parts, and that by removing both of the caps I readily obtain access to the entire interior of the nozzle, so as to clean the same if this should be necessary. Owing to the absence of any vanes or the like, and to the fact that the ports in the inner tube are located beyond the ends of the valve body, such a cleaning is made very easy, so that I reduce delays on this account even when using liquids containing a considerable amount of impurities. Moreover, since I can so easily vary the efl ects obtained by my nozzle, I can readily employ one and the same nozzle for a larger variety of purposes than has heretofore been possible.

Regardless of the nature of the fluids used it will also be noted that the adjustment of nozzles embodying my invention can readily be made while the nozzle is in actual use. For example, if my nozzle does not afford just the desired liquid distributingeffect, the effective pressure of the fluid supplied through the forward portion of the tubular chamber can be varied by any common method (such as by manipulating a throttling valve associated with the inlet and the spacing between the mouth of the inner tube and the outlet of the nozzle can be varied by rotating the cap 2 in either direction. Both of these adjustments can be made while the nozzle is in actual service, thus avoiding any shutting down or disassembling of the nozzle for such a purpose and making it easy for the user to operate the nozzle at a high degree of effectiveness. However, while I have illustrated and described my invention in a desirable embodiment in which the inner tube is cast integral with the valve body and in which the inlet ports to this inner tube are substantially tangential of this bore, I do not wish to be limited to these or other details of the construction and arrangement thus disclosed. Obviously, various additions, omissions or changes might be made without departing from the spirit of my invention. Neither do I wish to be limited to the use of my nozzle with the particular fluids mentioned by me. The liquid introduced through the rear ports into the inner tube could obviously be variedv greatly, while the fluid supplied through high-pressure inlet 1 might also be a liquid, although I have found my nozzle particularly suitable for use with non-liquid fluids introduced through the inlet connected to the forward portion of the tubular chamber within the the same nozzle.

I claim as my invention:

1. A spray nozzle comprising a tubular body, a transverse partition dividing the bore of the body into forward and rear portions, an inner tube extending through the partition and projecting at both ends beyond the body, the inner tube having a closed rear end and having lateral ports disposed re spectively near its two ends, a closure cap for the rear of the tubular body, a forward cap mounted on the body and having an aperturealigning with the forward end of the inner tube, and fluid inlets disposed at opposite sides of the partition and leading to portions of the space between the inner tube and the bore of the body and respectively connected through the said portions to the said ports.

2. In a spraying or atomizing nozzle, a pair of concentric tubes, a partition dividing the space between the tubes into a pair of tubular chambers, fluid inlets for the two chambers, both the rear chamber and the rear end of the inner tube being closed and the inner tube having nonradial ports connecting it respectively with the two chambers, a perforate closure for the forward chamber having its perforation in alinement with the forward end of the inner tube, and means for varying the spacingbetween the perforate closure and the end of the inner tube.

3. In a spray nozzle, a tubular body open at its ends and having lateral inlets, means in the body for causing fluid from one inlet to pass rearwardly of the body and for causing fluid from the other inlet to pass forwardly of the body, an inner tube in the body having a closed rear end and having lateral ports adjacent its respective ends, closure means for the rear end of the body spaced from the closed rear end of the tube, and a cap on theforward end of the body and being adjustable with, relation to the forward end of the tube to vary the space between the cap and said forward end of I the tube.

4. In a spray nozzle, a tubular body, a

tube in the body spaced therefrom, a pair of ports leading into the body, said tube having spaced ports, and means in the body for directing fluid from one port of the body to one port of the tube and for directing fluid from the other port of the body to the other port of the tube.

5. In a spray nozzle, a tubular body, a tube in the body spaced therefrom, a pair of ports leading into the body, said tube having spaced ports, and means in the body common to said pair of ports for directing fluid from one port of the body to one port of the tube and for directing fiuid from the other port of the body to the other port of the tube.

6. In a spray nozzle, a tubular body, a tube in the body having ports adjacent its ends, a pair of ports leading into the body,

and a partition extending across the body and disposed to cause fluid from one body port to be directed towards one of the tube ports, and fluid from the other body port to be directed toward the other tube port.

'7. In a spray nozzle, a tubular body having a pair of opposite ports, an inner tube having; ports adjacent its ends, and a diagonal partition in the body extending across the respective ports thereof to cause fluid from one body port to be directed towards one of the tube ports, and fluid from the other bony port to be directed towards the other tube port.

8. In a spray nozzle, a tubular body having a pair of opposite ports, an inner tube in the body having an inlet for each end, and a diagonal partition in the body extending across the respective port-s thereof to cause fluid from one body port to be directed towards one of the tube inlets, and fiuid from the other body port to be di rected towards the other tube inlet.

9. In a spray nozzle, a tubular body havsing ports, a tube in the body, and combined means for supporting the tube and for directing the fluid from the respective ports toward opposite ends of the tube.

10. A. spray nozzle including a tubular body having; a pair of lateral ports, a tube in the body, disposed with its respective ends projecting outwardly from the ends of the body, means to cause the fluid from the respective ports to be directed toward the body ends, and a cap threaded on each end of the body.

11. In a spray nozzle, a tubular body having a pair of lateral ports between its ends, a tube in the body having its ends extending beyond the body ends, means to support the tube and to direct fluid from the respective ports towards opposite ends of the body and a cap threaded on each end of'the body.

12. In a spray nozzle, a tubular body having a pair of lateral ports between its ends, a tube in the body having; its ends extending beyond the body ends, a cap threaded on each end of the body, and means in the body to direct fluid from the respective ports toward the opposite ends of the body.

13. In a spray nozzle, a body, a tube therein having lateral ports, beyond the adjacent end of the body, said'tube having a head extending laterally over and spaced from the said body end, means to direct fluid from the respective ports towards the opposite ends of the body and a cap adjustable on the body and enclosing said head.

14. In a spray nozzle, a body, a tube 5 therein having lateral ports, beyond the adjacent end of the body, said tube having a head spaced from the said body end, means to direct fluid from the respective ports towards the opposite ends of the body and a cap adjustable on the body and enclos- 10 ing said head.

Signed at Chicago, Illinois, March 30th, 1920.

HARRY D. BINKS.