Spray boom cleanout assembly

Abstract

A system and method for spray boom cleanout. A spray boom cleanout assembly is provided over a fluid pipe of an agricultural sprayer. The spray boom cleanout assembly includes an end cap body having a vent configured to release trapped air from the fluid pipe through a spray nozzle as the fluid pipe is filled with a fluid. The end cap body is coupled by an adapter to a fluid flush valve allowing for improved cleanout of fluid from the end of the fluid pipe after a spraying operation.

Claims

1. A spray boom cleanout assembly, comprising: (a) an endcap body configured for securement over the end of a fluid pipe of a spray boom; (b) wherein the endcap body is provided with a vent configured to release trapped air from the fluid pipe of the spray boom; (c) wherein the vent is configured to impede the release of fluid from the fluid pipe of the spray boom; and (d) a fluid flush valve coupled to the endcap body, wherein in the fluid flush valve is configured for securement in fluid communication with the fluid pipe of the spray boom.

2. The spray boom cleanout assembly of claim 1, further comprising a sprayer nozzle coupled to the endcap body, wherein in the sprayer nozzle is configured for securement in fluid communication with the fluid pipe of the spray boom.

3. The spray boom cleanout assembly of claim 2, wherein the sprayer nozzle is constructed for remote actuation.

4. The spray boom cleanout assembly of claim 2, wherein the sprayer nozzle is directed downward.

5. The spray boom cleanout assembly of claim 1, wherein the fluid flush valve is provided with a manually operable knob.

6. The spray boom cleanout assembly of claim 1, wherein the fluid flush valve is directed downward.

7. The spray boom cleanout assembly of claim 1, wherein the endcap body is provided with a receiver of a size sufficient to receive an end of the fluid pipe of the spray boom.

8. The spray boom cleanout assembly of claim 7, further comprising a clamp securing the endcap body to the fluid pipe of the spray boom.

9. The spray boom cleanout assembly of claim 1, further comprising an adapter, the adapter comprising: (a) a first threaded end defining a cavity; (b) a second end coupled to the first threaded end; and (c) wherein the vent comprises a first port in fluid communication with the cavity, and a second port in fluid communication with the cavity.

10. The spray boom cleanout assembly of claim 9, wherein the first port is larger than the second port.

11. The spray boom cleanout assembly of claim 9, further comprising a nut positioned between the first end and the second end.

12. The spray boom cleanout assembly of claim 9, wherein the adapter defines a pin retainer between the first end and the second end.

13. The spray boom cleanout assembly of claim 9, wherein the vent comprises a vent channel in fluid communication between the first port and the cavity.

14. The spray boom cleanout assembly of claim 13, wherein the vent channel is in fluid communication with the second port.

15. The spray boom cleanout assembly of claim 13, wherein an axis of the vent channel is oriented generally perpendicular to an axis of the cavity.

16. A spray boom cleanout assembly comprising; (a) an endcap body configured for securement over the end of a fluid pipe of a spray boom; (b) wherein the endcap body is provided with a vent configured to release trapped air from the fluid pipe of the spray boom; (c) wherein the vent is configured to impede the release of fluid from the fluid pipe of the spray boom; (d) a fluid flush valve coupled to the endcap body, wherein in the fluid flush valve is configured for securement in fluid communication with the fluid pipe of the spray boom; and (e) an adapter coupled to, and in fluid communication with, both the endcap body and the fluid flush valve.

17. The spray boom cleanout assembly of claim 16, wherein the adapter comprises: (a) a first threaded end defining a cavity; (b) a second end coupled to the first threaded end; and (c) wherein the vent comprises a first port in fluid communication with the cavity, and a second port in fluid communication with the cavity.

18. The spray boom cleanout assembly of claim 17, wherein the cavity is in fluid communication with the endcap body and wherein the first port and the second port are in fluid communication with the fluid flush valve.

19. A spray boom cleanout assembly comprising; (a) an endcap body configured for securement over the end of a fluid pipe of a spray boom; (b) wherein the endcap body is provided with a vent configured to release trapped air from the fluid pipe of the spray boom; (c) wherein the vent is configured to impede the release of fluid from the fluid pipe of the spray boom; (d) an adapter threadably coupled to the endcap body; (e) a fluid flush valve releasably coupled to the fluid flush valve; and (f) wherein the vent comprises a first port and a second port both in fluid communication with the cavity and the fluid flush valve.

20. The spray boom cleanout assembly of claim 19, further comprising a pin securing the endcap body to the adapter.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 illustrates a front elevation of an agricultural sprayer having the spray boom cleanout assembly of the present invention;

[0010] FIG. 2 illustrates an exploded view of the spray boom cleanout assembly of FIG. 1;

[0011] FIG. 3 illustrates a side perspective view of the spray boom cleanout assembly of FIG. 1;

[0012] FIG. 4 illustrates a bottom elevation of the adapter of the spray boom cleanout assembly of FIG. 1;

[0013] FIG. 5 illustrates a top elevation of the adapter of the spray boom cleanout assembly of FIG. 1;

[0014] FIG. 6 illustrates a side elevation and cut-away of the adapter of the spray boom cleanout assembly of FIG. 1;

[0015] FIG. 7 illustrates a top perspective view of the boom and flush valve of the spray boom cleanout assembly of FIG. 1; and,

[0016] FIG. 8 illustrates a side elevation in cut-away of the spray boom cleanout assembly of FIG. 1.

DETAILED DESCRIPTION OF THE DRAWINGS

[0017] As shown in FIG. 1, a high clearance agricultural sprayer (10) is provided with a spray boom (12) coupled to the spray boom (12) is a fluid pipe (14) in fluid communication with a material tank (16) provided on the sprayer (10). While the sprayer (10) may be of any type known in the art, in the preferred embodiment, the sprayer (10) is a Hagie STS 12 Sprayer provided with a 1200 gallon material tank (16) for storing fluid (18) to be applied to crops (20), weeds (22), pests (24) and/or the soil (26).

[0018] As shown in FIG. 2, secured over the end (28) of the fluid pipe (14) is a spray boom cleanout assembly (30). The spray boom cleanout assembly (30) has an end cap body (34), a nozzle assembly (92), a fluid flush valve (36) and an adapter (38) coupling the end cap body (34) to the fluid flush valve (36). One end of the spray boom cleanout assembly (30) defines a hollow receiver (40), which receives the end (28) of the fluid pipe (14). Once the end (28) of the fluid pipe (14) is received within the receiver (40), the end cap body (34) is secured to the fluid pipe (14) by a collar clamp (32), or similar means known in the art. The nozzle assembly (92) is provided over the end cap body (34), the adapter (38) is pinned into engagement with the end cap body (34) and the fluid flush valve (36) is screwed into the adapter (38). While the end cap body (34) may be of any design known in the art, in the preferred embodiment, the end cap body (34) is a Hypro Express Nozzle Body End Cap Model 7433, manufactured by Pentair Ltd. of Minneapolis, Minn. Similarly, the fluid flush valve (36) may be of any type known in the art, but in the preferred embodiment is a Wilger boom and flush valve model number 25176-VO manufactured by Wilger Industries Ltd., of Saskatoon, Saskatchewan, Canada.

[0019] Whereas the end cap body (34) is typically provided with a removable cover (not shown), in the present invention, the cover is replaced by the adapter (34), shown in more detail in FIGS. 4-6. As shown in FIG. 4, the adapter (38) is provided with a first threaded end (42) defining a tapered cavity (44). As shown in FIG. 6, the adapter (38) is also provided with a second end (46) integrally coupled to the first threaded end (42). The second end (46) defines a fluid vent (48), having a first large port (52) and a second smaller port (54), both of which are in fluid communication with a vent channel (56). The vent channel (56) is in fluid communication with the cavity (44) of the first threaded end (42). As shown in FIG. 5, the large port (52) is approximately the same width as the diameter of the vent channel (56). As shown in FIG. 4, the small port (54) is substantially smaller width than the diameter of the vent channel (56).

[0020] As shown in FIGS. 4 and 5, the adapter (38) is also provided with a pin retainer, which in the preferred embodiment is a pair of keyways (58 & 60). As shown in FIG. 2, when the adapter (38) is positioned within the end cap body (34) a metal clip (62) is provided through two slots (64 & 66) integrally molded into the sides of the end cap body (34). As the clip (62) is positioned within the slots (64 & 66), the clip (62) passes through the keyways (58 & 60) of the adapter (38), thereby retaining the adapter (38) in engagement with the end cap body (34), against inadvertent removal. When it is desired to remove the adapter (38) from the end cap body (34), the clip (62) is removed and the adapter (38) is slid from the end cap body (34).

[0021] While the adapter (38) may be constructed of any type of material known in the art, in the preferred embodiment, the adapter (38) is integrally molded into a single piece of polypropylene. As shown in FIG. 2, the second end (46) of the adapter (38) is threaded for engagement with the fluid flush valve (36). The adapter (38) is integrally molded with a nut (68), located between the first threaded end (42) and the second end (46) of the adapter (38), to facilitate securement of the adapter (38) to the fluid flush valve (36). The fluid flush valve (36) is provided with a valve body (70) defining a threaded cavity (72). The first threaded end (42) of the adapter (38) is preferably threaded with dimensions to fit into mating engagement with the threaded cavity (72) of the fluid flush valve (36). For ease of assembly, the first threaded end (42) of the adapter (38) is preferably threaded into the threaded cavity (72) of the fluid flush valve (36) prior to inserting the second end (46) of the adapter (38) into the end cap body (34) for retainment therein by the clip (62). A wrench (not shown) may be used on the nut (68) to tighten the securement of the adapter (38) to the fluid flush valve (36) if manual tightening is insufficient for this purpose.

[0022] As shown in FIG. 7, the fluid flush valve (36) is also integrally molded with an outlet (74) defining an exhaust port (76) in fluid communication with the threaded cavity (72). Located between the threaded cavity (72) and the exhaust port (76) is a valve (78), such as those known in the art, to open and close fluid communication between the threaded cavity (72) and exhaust port (76). The valve (78) is provided with an exterior knob (80) to allow for manually opening and closing the valve (78).

[0023] The first threaded end (42) of the adapter (38) is screwed into the threaded cavity (72) of the fluid flush valve (36) to a desired tightness. The second end (46) of the adapter (38) is then inserted into the end cap body (34) and retained therein by the clip (62). The adapter (38) is secured within the end cap body (34) in an orientation having the large port (52) on the top and the small port (52) at the bottom, to facilitate purging air (84) from the fluid pipe (14). As shown in FIG. 8, the nozzle assembly (92) is in fluid communication with the vent channel (56).

[0024] When it is desired to use the spray boom cleanout assembly (30) of the present invention, a user manipulates a control panel (82) provided on the sprayer (10) to remotely open one of the nozzles (96) on the nozzle assembly (92). Thereafter the user manipulates the control panel (82) to direct fluid (18) into the fluid pipe (14). As the fluid (18) begins to fill the fluid pipe (14), the fluid (18) remains at near the bottom of the fluid pipe (14) while air (84) within the fluid pipe (14) moves to the top of the fluid pipe (14). Given the relative sizes of the ports (52 & 54) and the relatively lower viscosity of the air (84) compared to the fluid (18), pressure caused by the fluid (18) entering the fluid pipe (14) forces more air (84) through the upper large port (52) than fluid (18) through the small port (54). This causes the air (84) to move through the large port (52), vent channel (56), through the nozzle assembly (92) and out of the nozzle (96). Air (84) continues to vent from the fluid pipe (14) through the nozzle (96) until the fluid (18) fills the fluid pipe (14), at which point fluid (18) begins to move through the large port (52) to be exhausted through the nozzle (96). Once the user sees fluid (18) exiting through the nozzle (96), the user manipulates the control panel (82) to remotely close the nozzle (96), completing the purging of air (84) from the fluid pipe (14). Allowing the use of the nozzle (96) to purge the fluid pipe (14) allows the entire purging operation to be conducted from the control panel (82) as the nozzle (96) can be remotely operated therefrom.

[0025] When it is desired to clean out the fluid pipe (14) after application of the fluid (18), the user manually turns the knob (80) on the fluid flush valve (36) to open the valve (78). The user then uses the control panel (82) to direct water or other cleaning liquid through the fluid pipe (14). Once the fluid pipe (14) has been sufficiently flushed with water (86) the user uses the control panel (82) to stop providing water (86) to the fluid pipe (14), allowing the remainder to drain from the outlet (74). Once the fluid pipe (14) is empty, the user turns the knob (80) to close the valve (78) and the sprayer (10) is again ready for use. Providing the spray boom cleanout assembly at the end (28) of the fluid pipe (14), prevents fluid (18) from remaining trapped in the fluid pipe (14) and not exiting the fluid pipe (14) during cleanout. By positioning the spray boom cleanout assembly at the end (28) of the fluid pipe (14), the fluid pipe (14) may be completely flushed of remaining fluid (18), thereby reducing the mixing of fluid (18) remaining in the fluid pipe (14) with a new fluid (18) subsequently introduced into the fluid pipe (14).

[0026] Although the invention has been described with respect to a preferred embodiment thereof, it is to be understood that it is not to be so limited, since changes and modifications can be made therein which are within the full, intended scope of this invention as defined by the appended claims. What is claimed is: