US2574206A

US2574206A - Spray boom device

Info

Publication number: US2574206A
Application number: US761215A
Authority: US
Inventors: Browning Leander
Original assignee: Individual
Current assignee: Individual
Priority date: 1947-07-16
Filing date: 1947-07-16
Publication date: 1951-11-06
Anticipated expiration: 1968-11-06

Description

Nov. 6, 1951 L. BROWNING 2,574,206

SPRAY BOOM DEVICE Filed July 16, 1947 2 SHEETS-SHEET 1 IN VEN TOR. lmv z'fi BROWNING,

A TTOFNEY Nov. 6, 1951 L. BROWNING 74,206

SPRAY BOOM DEVICE Filed July 16, 1947 2 SHEETS-SHEET 2 Patented Nov. 6, 1951 UNITED STATES PATENT OFFICE SPRAY BOOM DEVICE Leander Browning, Greenwood, Ind.

Application July 16, 1947, Serial No. 761,215

The present invention relates to spray boom devices, and the primary object is to provide a mechanism which, when mounted upon a suitable vehicle, can be moved through an orchard, or the like, to spray the trees, from top to bottom, with suitable fluent material. It is customary to use relatively high pressures, to dispense the fluent material through flexible hoses provided with nozzles. Control of the hoses, against the writhing tendencies produced by the fluent material under high pressure, is therefore difficult; and a major object of the present invention is to provide automatic means for moving the spray heads or nozzles through suitable arcs in a substantially vertical plane, while controlling the tendency of the hoses to writhe or whip. A further object of the invention is to provide fluid operated means for s controlling the spray heads, such means being of such character as automatically to move the spray heads continuously through a predetermined arc.

A further object of the invention is to provide means for assisting in the equalization of volume and pressure deliveries to a plurality of spray heads connected, at vertically spaced points, through a common hollow mast. A further object of the invention is to provide a novel fluid motor and novel valving means therefor. A still further object of the invention is to provide novel means for assisting the operation of the fluid motor in the control of the spray heads.

Still further objects of the invention will appear as the description proceeds.

To the accomplishment of the above and related objects, my invention may be embodied in the form illustrated in the accompanying drawings, attention being called to the fact, however, that the drawings are illustrative only, and that change may be made in the specific construction illustrated and described, so long as the scope of the appended claims is not violated.

Fig. 1 is a more or less diagrammatic side elevation of a spray boom device constructed in accordance with my invention;

Fig. 2 is an enlarged fragmental plan of a portion thereof;

Fig. 3 is a transverse section taken substantially on the line 3-3 of Fig. 1, and drawn to an enlarged scale;

Fig. 4 is a fragmental horizontal section taken substantially at the level of the top of the fluid motor;

Fig. 5 is an enlarged longitudinal section through the mast of the present invention, spe cifically illustrating my means for equalizing pressures and volume deliveries;

7 Claims. (01. 299-37) Fig. 6 is an enlarged vertical section through the fluid motor forming a part of the present invention;

Fig. 7 is a similar section of the lower portion of the motor, taken upon a plane removed from the plane of Fig. 6;

Fig. 8 is a transverse section, upon a further enlarged scale, taken on the line 88 of Fig. 6;

Fig. 9 is a similar section upon the line 9-9 of Fig. 7; and

Fig. 10 is a similar section upon the line IiII0 of Fig. 6. 7

Referring more particularly to the drawings, it will be seen that I have illustrated a portion of a conventional automotive vehicle, indicated generally by the reference numeral I 0. While I prefer to mount the present device upon such a vehicle, it may obviously be mounted in any other suitable fashion. A bracket I I projects forwardly from the front end of the vehicle, and a vertical brace I2 cooperates with said bracket in the support of a hollow mast I5 which is mounted for oscillation about its own axis in bearings I3, on the bracket II, and I4, on the bracket I2. A radial arm I6 is connected to the mast and a suitable linkage I'I provides an operative connection between said arm I6 and a lever I8 mounted adjacent the vehicle operators seat, so that the operator may conveniently oscillate the mast I5 about its own axis, during transit of the vehicle. Preferably, the arm It will be double-ended, as illustrated in Fig. 4.

A hose I9 extends from a source of material to be distributed (not shown) and a second hose 28 extends from a source of air under pressure.

The hose I 9 is suitably connected to an inlet port 2| (see Fig. 5) adjacent the base of the mast and communicating with the interior 22 thereof; and the mast is provided with a plurality of outlet ports 23, vertically spaced from each other and opening radially from the mast in a line removed from the inlet port 2!. The uppermost of the outlet ports is indicated by the reference numeral 24.

Flexible hoses

25, 26 and 27 are connected to the respective outlet ports 23, and a similar hose 28 is connected to the outlet port 24. Obviously, as many outlet ports as may be desired, will be provided.

Spray heads 29, 36, 3| and 32 are connected to the respective hoses. I prefer to install within the mast I5 a supplemental conduit 33 hav ing an inlet port 34 adjacent its base and an outlet port 35 adjacent its upper end. The port 3t registers with the mast inlet port 2i and the port 35 registers with the uppermost outlet port 3 24. The outside diameter of the conduit 33 is considerably less than the inside diameter of the mast l5, so that fluent material may circulate freely Within the mast and past the conduit 33; yet a substantial quantity of such fluid, supplied to the mast at pressures on the order of six hundred pounds per square inch, will enter the conduit 33 through the port 34 and will be discharged therefrom through the port 35. I have found that this arrangement very materially improves the delivery of fluid from the uppermost outlet port 24. In some instances, it may be desirable to provide two or more outlet ports 3 for the conduit 33, respectively registering with the two or more mast outlet ports nearest the top of the mast. The inclination of the conduit 33 within the mast l5, as illustrated in Fig. 5, minimizes the interference of said conduit with flow of fluent material to the lower outlet ports 23.

Fixed to the mast l adjacent the base thereof is a forwardly projecting bracket 36 supported by a suitable brace 31. A fluid motor 38 has one element pivotally anchored to the bracket 36. At points substantially coincident with the elevations of the outlet ports 23 and 24,

lever pairs

39, 40, 4| and 42 are pivotally secured to the mast l5. Throughout the claims, and to some extent in the specification, such a lever pair will be referred to as a lever; but preferably each such unit will be of the general character of the unit 42, illustrated in plan in Fig. 2. It will be seen that the unit 42 comprises a lever 42a and a lever 42b, pivoted upon a common axis transverse to the axis of the mast |5. Similarly, each spray head or nozzle will preferably be of the character illustrated at 32 in Fig. 2, com rising three or m re

discharge spouts

43, 44 and 45, connected to a common header 41 fed by a single inlet 46. The levers 42a and 421) are preferably bifurcated at their outer ends, as at 48, to engage the header 41, whereby the spray head 32 is supported for movement with, and with respect to, the lever 42.

Links 49 connect the levers 39 and 48, links 50 connect the

levers

40 and 4|, and links 5| connect the levers 4| and 42. Preferably, each such link will be double, comprising two elem nts such as 5|a and 5|b, respectively connected to the a and 1) elements of the lever units, in the manner illustrated in Fig. 2. Thus, all of the levers will swing synchronously. It will be clear that, as they move upwardly from the ositions illustrated in Fig. l, the

hoses

25, 26, 21 and 28 will be straightened more and more, until the levers come into horizontal positions, \vhereafter further r ovement of the levers in the same direction will flex the hoses upwardly.

Preferably, but not necessarily, each of the levers is formed with a plurality of lon itudinally spaced perforations, such as 52, whereby the connecting links may be secured the eto at varying distances from the pivotal anchorages of the levers. Optionally, the links may be connected to the respective levers at different spacings from the mast, so that the respective levers will move through different arcs.

The lever 39 is provided with a cross bar 53 to which may be connected the plunger or stem 54 of the motor 38. As shown, the cross bar 53 passes through a transverse opening in the stem 54, If, now, the cylinder 55 of the motor 38 is anchored upon the bracket 36, it W11 2% seen that operation of the motor will oscillate the

levers

39, 40, 4| and 42.

At a suitable point in the height of the mast an upright 56 is secured to the mast and provides a pivotal anchorage for a lever 51, the outer end of said lever being connected midpoint to a link 58 whose opposite ends are connected to the

levers

40 and 4| respectively. The lever 51 is formed to provide two

trackways

59 and 60 extending longitudinally thereof. A coiled spring 6| has one end anchored upon a stationary bracket 62 at the 7 upper end of the mast l5, and has its other end anchored to a slide 63 which may preferably comprise a housing 64 carrying a roller 65 mounted upon an axle 68 which projects through a slot 61 in the lever 51, the housing 64 straddling said lever. A second coiled spring 68 has one end anchored upon the bracket 36 and its other end anchored upon a slide 89, substantially identical with the slide 63, and engaged in the guideway 60 in a similar manner, the axle for the roller of the slide 69 extending through a slot 1|! in the lever 51.

The motor 38 is illustrated indetail on sheet 2 of the drawings. The ends of the cylinder 55 are closed by blocks 1| and 12, held in place by closure plates 13 and 14 connected by tie rods 15. Reciprocably mounted in the cylinder 55 is a piston 16 rigidly connected to the stem 54, and abutting a heavy coiled spring 11 confined between said piston and the block 1|, and continuously urging the piston 18 toward the block 12. The block 12 is formed with an inlet port 18 guarded by a reciprocating valve 19 which is positioned to move in a line parallel with the axis of the cylinder 55, and which is resiliently urged toward closing relation to the port 18 by a coiled spring 80. Said valve is nrovided with an actuating stem 8| projecting into the cylinder 55. The block 12 is further forrred with an outlet port 82 with which cooperates a manually adjustable needle valve 83, and which is primarily controlled by an outlet valve 84 mounted for reciprocation in a line substantially parallel to the axis of the cylinder 55.

A guard tube 85 is associated with the valve 19 and its port and projects toward the opposite end of the cylinder; and a similar tube 86 is similarly associated with the outlet port 82.

Reciprocably mounted in the cylinder 55, be-- tween the piston 16 and the ports 18 and 82, is a spider-like carriage 81. Fixed to said carriage and movable therewith is a plunger 88 having guiding engagement in the tube 85, and having a reduced valve-actuating extension 89 which extends into cooperative relation with the stem 8| of the valve 19. A spring 98 surrounds the projection 89 within the tube 85 and is confined between the plunger 88 and a' fixed abutment 9| within the tube 85.

The carriage 81 similarly supports a second plunger 92 having guiding engagement in the tube 86 and having a reduced extension 93 which, within the tube 86, carries at its lower end a coupling element 94 in which is engaged the stem 95 of the outlet valve 84. Said stem is formed with an elongated slot 96 in which engages a pin 91 carried by the coupler 94; and a coiled spring 98 surrounds the valve stem 95 and is confined between the valve 84 and the coupling 94. It will.

be obvious that this arrangement holds the valve 8 re ently in its position most remote from the couplind 94, but permits some telescoping of the stem 95 relative to the coupling 99.

A latch lever 99 is pivotally mounted at its lower end upon the block I2, as at I99, and projects into cooperative relation with the carriage 81. A leaf spring I9I carried on said latch lever engages the wall of the cylinder 55 and continuously urges the upper end of said lever to swing inwardly. Near its upper end, the lever is formed with a notch I92, and said lever is movably projected through a suitable slot I99 formed in the carriage 81. When said carriage is in registry with the notch I92, the spring I9! urges the lever into a position such as to engage the carriage within said notch to hold the carriage against downward movement, as is clearly illustrated in Fig. 7. At a point beyond the notch I92, the lever is provided with an inwardly projecting cam finger I94, for a reason which will appear hereinafter.

A second latch lever I95 is similarly pivotally mounted at I 96, upon the block 72, at a point preferably 180 removed from the pivotal mounting I99. A leaf spring I9! is carried by said lever I95 to engage the wall of the cylinder 55 to urge said lever continuously inwardly. Near its upper end, the lever I95 is formed with a notch I98 for engagement with the carriage 81, when said carriage is in registry with said notch, to hold said carriage against upward movement. The lever projects through, and is movable in, a suitable slot I99 formed in the carriage 81.

Depending from the piston I6 and projecting through the carriage B! so that one portion thereof is located between the piston I6 and the carriage 8'1 and another portion thereof is located between the carriage 81 and the valves I9 and 84, is a stem I I9, fixed to the piston for movement therewith. Upon the first mentioned portion of said stem is secured a release cam I I I for cooperation with the cam finger I94. Fixed to the nose of the cam III and projecting therebeyond, is a coiled spring II2. At the lower end of the stem II 9 is carried an upwardly facing cam H3 for cooperation with the cam finger I I5 on the lever I95, and a coiled spring II I projects beyond the nose of the cam H3.

The operation of the motor 39 is as follows: In the illustrated positions of the parts, the piston I6 is moving downwardly under the influence of the spring I1. The rate of movement thereof, of course, will depend upon the setting of the needle valve 83, which controls the rate of escape of air from the interior of the cylinder 55. As the piston moves downwardly, the spring IIZ will engage, and be compressed against, the upper surface of the carriage 81; and after such compression has been accomplished, the cam III will strike the cam finger I 94 to. shift the lever 99, against the tendency of the spring I9 I, in a clockwise direction as viewed in Fig. 7. Thereby, the notch I92 will be disengaged from the carriage, and the carriage will be smartly moved downwardly under the influence of the expanding spring H2.

Such downward movement of the carriage 81 will shift the valve 89 into closing relation with its seat, to stop flow of air from the cylinder, and thereby arrest downward movement of the piston 19. At the same time, the rod 99 will strike the stem 8! and shift the valve I9 away from its seat, whereupon air will flow, from the source, through the hose 29 and inlet port I8, to the interior of the cylinder 55.

As the carriage 81 moves downwardly under the influence of the spring II 2, it comes into registry with the notch I98 in the lever I; and the spring ID! will move said lever in a clockwise direction, whereby engagement of the notch I98 with the carriage 81 will hold said carriage against, upward movement. Thus, as air flows into the cylinder 55, the piston I9 will be moved upwardly against the tendency of the spring II, but the carriage 8! will be held in its lowermost position, whereby the valve I9 will be held open and the valve 84 will be held closed. This condition will continue until the spring H4 engages the lower surface of the carriage 81 and is compressed thereagainst, whereafter the cam H3 will strike the cam finger II5 to shift the lever I95 in a counter-clockwise direction, thereby releasing the carriage 81. The carriage will now move smartly upwardly under the influence of the expanding spring II4, to permit closure of the valve I9 by the spring 89, and to move the valve 84 away from its seat. As the carriage moves upwardly, it comes into registry with the notch I92 in the lever 99, and the spring I9I returns said lever to its illustrated position.

This cycle will be continued for so long as air is supplied to the hose 29.

As the piston I9 moves upwardly, the plunger 59 swings the

levers

39, 49, II and 42 in their clockwise direction. This movement is assisted by the strong tendency of the high pressure fluid flow through the hoses 25, 29, 2! and 29 to straighten the flexible hoses. Such movement is resisted by the spring 69, whose upper end is anchored to the slide 99 currently positioned near the outer end of the lever 9?. As the

levers

39, 99, 4! and 92 pass through horizontal positions, their further clockwise movement is rather violently resisted by the flow of materialthrough the hoses, which flow tends to hold said hoses against flexure. But the moment the lever 51 passes the horizontal, the trackway 69 becomes inclined toward the bracket 56 and toward the pivotal mounting of the lever 51, whereupon the slide 99 will almost instantly move to a position closely adjacent the pivotal mounting of said lever. The result of that movement of the slide 59 is almost entirely to remove the tendency oi the spring 98 to resist clockwise movement of the lever 51, since the lever arm against which the spring operates has been reduced almost to zero. Concurrently, since the slide 59 is now inclined upwardly and outwardly, the slide 93 moves to the outer end of its guideway, thereby applying the force of the spring 9I against the lever 51 at a substantial radial distance from the pivotal mounting of said lever, and lending the assistance of said spring 9! to the effort of the motor 38 to continue clockwise movement of the lever 51, and so, of the

levers

39, 99, 3i and 42.

Obviously, a converse shift will occur, as the lever 57 passes through the horizontal position, during downward movement of the piston and the hose-controlling levers.

I claim as my invention:

1. In combination, a hollow mast, a plurality of nozzles supported upon said mast at separate levels for movement in vertical planes relative to said mast, means for supplying fluent material under pressure to the interior of said mast, each of said nozzles having communication with the interior of said mast, a reciprocating fluid motor supported adjacent said mast and operatively connected to shift said nozzles in said planes,

7 spring means resisting upward movement of said nozzles, other spring means'resisting downward movement of said nozzles, an element supported from said mast to swing in an arc in synchronism with said nozzles, means providing an operative connection between said element and said nozzles, anchorage means connecting each of said spring means with said element, said anchorage means for said respective spring means being independently movable relative to said element toward and away from the center of such arc to vary the resistive effect of said respective spring means upon said nozzles as said nozzles pass through an intermediate position, and means for supp y fluid under pressure to said motor.

2. In combination, a hollow mast, a plurality of nozzles supported upon said mast at separate levels for movement in vertical planes relative to said mast,'means for supplying fluent material under pressure to the interior of said mast, each of said nozzles having communication with the interior of said mast, means for shifting said nozzles in said planes, spring means resisting upward movement of said nozzles, other spring means resisting downward movement of said nozzles, an element supported from said mast to swing in an arc in synchronism with said nozzles, means providing an operative connection between said element and said nozzles, and anchorage means connecting each of said spring means with said element, said anchorage means for said respective spring means being independently movable relative to said element toward and away from the center of such are to vary the resistive effect of said respective spring means upon said nozzles as said nozzles pass through an intermediate position.

3. In combination, a mast, a lever pivotally mounted on said mast for oscillation relative thereto in a plane parallel with the axis of said mast, spring means resisting movement of said lever in one direction, other spring means resisting movement of said lever in the other direction, anchorage means connecting each of said spring means with said lever, said anchorage means for said respective spring means being independently movable relative to said lever toward and away from the pivotal axis thereof to vary the resistive eirect of said respective spring means upon said lever as said lever passes through an intermediate position, and means for oscillating said lever.

4. In combination, a mast, a lever pivotally mounted on said mast for oscillation relative thereto in a plane parallel with the axis of said mast and having two longitudinally extending guides thereon, a slide movably associated with one of said guides, a contractile spring having one end anchored near one end of said mast and its other end secured to said slide, a second slide movably associated with the other of said guides, a second contractile spring having one end anchored near the other end of said mast and its other end fixed to said second slide, and means for oscillating said lever.

5. In combination, a conduit, means for supplying liquid under heavy pressure to said conduit, a nozzle, a flexible hose connecting said nozzle with said conduit, and means for opposit ly flexing said hose to move said nozzle through an arc comprising a lever pivotally mounted at one end near the point of connection of said hose with said conduit and operatively engaging said nozzle at its other end, power-delivery means operatively connected to said lever to swing the same through an arc, and supplementary power means operatively connected with said lever and resisting movement of said lever toward its median position in which said hose is straight, but assisting movement of said lever from its median position toward either of its opposite extreme positions in which said hose is flexed, said supplementary means comprising a spring having one end anchored at one side of the lever pivot and a second spring having one end anchored at the other side of said lever pivot, and anchorage means for the opposite ends of said springs, each comprising an element shiftably supported on said lever and independently movable relative to said lever toward and away from said lever pivot.

6. In combination, a conduit, means for supplying liquid under heavy pressure to said conduit, a nozzle, a flexible hose connecting said nozzle with said conduit, and mean for oppositely flexing said hose to move said nozzle through an arc comprising a lever pivotally mounted at one end near the point of connection of said hose with said conduit and operatively engaging said nozzle at its other end, powerdelivery means operatively connected to said lever to swing the same through an arc, a second lever pivotally mounted upon an axis parallel with the pivotal axis of said first-named lever, linkage means cooperating with said two levers to maintain the same always in substantial parallelism, a longitudinally-extending guide on said second lever, a slide movably associated with said guide, a contractile spring having'one end anchored on said slide and its other end anchored at a point spaced from said second lever substantially in the plane of movement of said second lever, a second guide on said lever substantially parallel with said first guide, a second slide movably associated with said second slide, and a second contractilespring having one end anchored on said second slide and its other end anchored at a point oppositely spaced from said second lever substantially in said plane.

7. The combination of claim 6 in which said first-named power-delivery means is a reciprocating fluid motor and in which means is provided for supplying fluid under pressure to said motor.

LEANDER BROWNING.

REFERENCES CITED The following references are of record in the flle of this patent:

UNITED STATES PATENTS Number Name Date 963,199 Alden July 5, 1910 1,468,109 Howard Sept. 18, 1923 1,534,241 Nichols Apr. 21, 1925 1,786,963 Schoenberger Dec. 30, 1930 1,890,623 Scott Dec. 13, 1932 1,900,837 Mills Mar. 7, 1933 2,057,364 Bystricky Oct. 13, 1936 2,086,474 Giell July 6, 1937 2,237,687 Parsons et a1 Apr. 8, 1941 2,324,947 Paradise July 20, 1943 2,363,776 Dale Nov. 28, 1944 2,365,755 Griflith Dec. 26, 1944 2,366,777 Farley et al Jan. 9, 1945 2,392,540 Lyman Jan. 8, 1946 2,411,964 Grass Dec. 3, 1946 2,439,356 Arens Apr. 6, 1948