The present invention relates generally to spray cleaning devises for cleaning liquid storage and processing vessels, barrels, tanks, and like containers, that are supported by cradles or other support apparatus with a closable access opening or drain hole in an underside thereof for enabling entry of a spray head of a cleaning device into the interior of the vessel and drainage of the cleaning liquids from the vessel.
It is known to support processing vessels in elevated relation to the floor to facilitate cleaning of the interior of the vessel from an opening in a bottom side. In wine production, for example, wine is processed in large generally cylindrical barrels that are supported during processing on cradle like racks in elevated relation to the floor. Upon completion of processing and removal of the wine from the container, it is necessary that the interior of the barrel be thoroughly cleaned. For this purpose, it is known to rotate the barrel on its support such that the access opening in a side of the barrel is facing downwardly. In such position, cleaning fluids may be directed into the interior of the container from the access opening and simultaneously drained from the barrel.
For this purpose, it is known to insert a rotary spray head of a cleaning device through the access opening and to operate the spray head such that is rotates about multiple axes for complete coverage and thorough cleaning of the interior of the barrel. Since the spray head must be inserted from an underside of barrel, it can be cumbersome to position the spray head into the barrel and to effectively drive the spray head, particularly when space below the barrel is limited. To enable reliably controlled rotation of the spray head, it is known to use a mechanical drive. Again, due to the limited space, it can be difficult to mechanically drive the upwardly oriented spray head while directing pressurized liquid to the spray head. To the extent the mechanical drive is housed within the liquid supply line, it further is necessary to securely seal the containment of the drive along its length for preventing liquid leakage. Moreover, when the drive is driven by an electrical motor, safety hazards can exist due to the wet environment about the barrels during cleaning.
It is an object of the present invention to provide a more efficient and easy to use spray cleaning device for cleaning storage vessels, such as wine barrels, from an underside access opening.
Another object is to provide a vessel spray cleaning device as characterized above that is more easily adaptable for use with vessels supported at different elevations with respect to the floor.
A further object is to provide a vessel cleaning device of the foregoing type having a mechanically driven rotary spray head adapted for more reliable operation.
Still a further object is to provide a vessel cleaning device of the above kind in which the cleaning liquid supply is substantially separated from the spray head drive in a manner that reduces sealing requirements for the drive.
Another object is to provide a vessel cleaning spray device as described above which is relatively simple and economical in construction and lends itself to easy and more reliable usage.
Other objects and advantages of the invention will become apparent upon reading the following detailed description and upon reference to the drawings, in which:
While the invention is susceptible of various modifications and alternative constructions, a certain illustrative embodiment thereof has been shown in the drawings and will be described below in detail. It should be understood, however, that there is no intention to limit the invention to the specific form disclosed, but on the contrary, the invention is to cover all modifications, alternative constructions, and equivalents falling within the spirit and scope of the invention.
Referring now more particularly to the drawings, there is shown an illustrative vessel spray cleaning device 10 in accordance with the invention, which in this case is depicted for use in cleaning of a wine barrel 11 supported on a rack 12 in elevated relation to a floor as depicted in
The illustrated cleaning device 10 basically comprises an elongated frame in the form of a straight cylindrical extension tube 15, preferably made of stainless steel, supported by a wheeled carriage 16 and having an elongated elevated handle 18 and a depending stabilizing leg 19 at one end and an upstanding rotatable spray head 20 at an opposite end for positioning into a vessel from an underside access opening for spray cleaning of the interior during a cleaning operation.
In accordance with a feature of the illustrated embodiment, the spray cleaning device 10 has a mechanical drive for more efficiently and effectively rotating the spray head 20 during a cleaning operation. To this end, in the illustrated embodiment, the extension tube 15 houses an elongated rigid central drive shaft 21 (
The planetary gearbox 24 comprises a housing that contains a plurality of planetary gear stages 36 (
In keeping with this embodiment, the rotary spray head 20 is supported in upstanding relation to a downstream end of the extension tube 15 by a supporting block or bracket 45 fixedly mounted on the end of the extension tube 15, which in turn carries a right angle gearbox 46 (
In further carrying out the present embodiment, pressurized liquid is directed to the spray head 20 at a location downstream of the right angle gearbox 46 so as to eliminate the necessity for transmitting liquid through the extension tube 15 about the drive shaft 21 and required sealing of the extension tube 15. In this case, a liquid inlet fitting 55 is mounted on an upper end of the right angle gearbox 46 having a liquid inlet 56 communicating through a side thereof to which a liquid supply line 58 is connected, which in this case is trained along the extension tube 15 and handle 18 and controlled by an on/off trigger 59 adjacent the air control valve 35 at the upper end of the handle 18. It will be understood that a pressurized liquid supply line, such as from a pressure washer or other pressurized liquid source, may be connected to the liquid supply line 58 at the upper end of the handle 18.
The rotary spray head 20 in this case is supported at the upper end of a fixed tubular housing member 60 mounted within a fitting part 61 secured, such as by means of an upstream threaded end to the top of the liquid inlet fitting 55. For simultaneously rotating and supplying liquid to the spray head 20, a drive and liquid flow tube 61 is mounted for relative rotation within the fixed tubular housing 60 (
The rotary spray head 20 includes a rotary nozzle assembly 75 supported on the spray head housing 65 for rotation about the horizontal axis passage section 64b. The rotary nozzle assembly 75 includes an annular body 76 rotatably supported on a horizontal hub 78 of the spray head housing 65, which carries a pair of spray nozzles 79 disposed in 180 degree opposed relation to each other each communicating with the horizontal passage section 64b.
For rotating the rotary spray nozzle assembly 75 about the axis horizontal of the passage portion 64b simultaneous with rotation of the rotary head 20 about the vertical axis, a bevel gear 80 is mounted in fixed relation to an upper end of the fixed tube 60, which cooperates with passive bevel gear 81 of the rotary nozzle assembly 75 such that rotation of the spray head 20 relative to the fixed tube 60 and fixed bevel gear 80 simultaneously rotates the rotary nozzle assembly 75 about the hub 78 of the spray head. It will be appreciated by one Skilled in the art that the mechanical drive for the rotary spray head 20 enables reliable operation of the spray device 10 as an incident to rotation of the drive shaft 21 without inconsistencies that occur from pressure variations and the like in fluid operated rotary spray devices.
In carrying out a further feature of the illustrated embodiment, the spray device 10 is adapted for more versatile and efficient usage in cleaning barrels, containers, and storage vessels, of different sizes and which are supported with different clearance spaces between the floor and the underside of the vessel. To this end, the carriage 16 cleaning device 10 has relatively large diameter wheels 90, such as at least about 8 inches in diameter, and the extension tube 15 is supported by the carriage 16 in elevated relation to the axis of the wheels 90, preferably at a level adjacent an upper side of the wheels. Such arrangement enables greater versatility in the range of movement of the spray head 20 between a lower position (
To further enhance versatile use of the spray device the wheeled carriage 16 is adopted for adjustably positioning along the length of the extension tube 16 intermediate its ends. To permit such adjustability in positioning of the carriage 16, the carriage 16 has an upstanding support 91 mounted centrally on an axel 92 of the carriage 16, which has a horizontal opening 94 (
For stabilizing the position of the spray head in optimal position within a vessel to be cleaned during a spraying operation, the depending leg 19 has an adjustable lower foot at extension 98 that can be raised and lowered relative to the leg 19 (
From the foregoing, it can be seen that a vessel spray cleaning device is provided that is adapted for more reliable and versatile usage. It utilizes a mechanical drive that is reliable in operation, relatively simple and economical in construction, and is substantially separated from the cleaning liquid supply to the spray device so as to reduce seating requirements. Its adjustability features enables it to be versatilely used in different spray applications.
This patent application claims the benefit of the U.S. Provisional Patent Application No. 61/931,751, filed. Jan. 27, 2014, which is incorporated by reference.
Number | Date | Country | |
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61931751 | Jan 2014 | US |