Patent Grant
6910957
The present invention finds applicability in cleaning industries, and more specifically in industries in which high-pressure washes, and especially washing processes In which abrasives are entrained in a fluid medium may be advantageously utilized.
High-pressure blast cleaning systems are well known. Such systems are often used to clean durable surfaces such as concrete and other pavements. They are also frequently used to remove such things as graffiti from building exteriors. In an effort to affect a more thorough cleaning, abrasives such as sodium bicarbonate have been added to power washers. Examples of such apparatus and methods of utilization are found in U.S. Pat. Nos. 5,366,560 and 5,588,901. the inventions of those patents were co-invented by the present inventor. certain drawbacks, however, had the idea of filed with respect to who those designs but we used in those devices.
A primary deficiency lies in the construction of the distribution nozzle. In its present configuration, the side portions of the nozzle encroach upon the distributed spray at side portions thereof. As a result, both water and abrasives are concentrated at the side portions of the fan-shaped spray causing a more abrasive effect at both locations on targeted objects. The result can be more thorough cleaning or uneven removal of surface coatings such as paint; in either case, the end result is uneven striping. Therefore, it is desirable to establish a more uniform dispersion of both fluid and abrasive across the spray front.
There are also other environments in which blast-type cleaning could be advantageously utilized. By way of example only, these environments may include the cleaning of such articles as automotive parts and the like, as well as sports equipment apt to be soiled, such as golf clubs. In these situations, the cleaning of such articles will often be performed indoors, and therefore it would be advantageous to have a containing compartment within which the wash process may be performed.
In view of the above described deficiencies associated with the use of known designs for high-pressure blast cleaning systems, and the recognition of other environments in which the blast system of the present invention may be exploited, the advantageous methods and systems disclosed herein have been developed to alleviate these drawbacks and meet the needs of the indicated industries. These enhancements and benefits are described in greater detail hereinbelow with respect to several alternative embodiments of the present invention.
The present invention in its several disclosed embodiments alleviates the drawbacks described above with respect to conventionally designed high-pressure wash systems and incorporates several additionally beneficial features. Furthermore, special configurations are disclosed for forming cleaning compartments or enclosures to be utilized for cleaning articles placed therein. These compartments have power washing apparatus incorporated therein configured according to the present teachings for a superior abrasive wash system.
As an additional enhancement to the nozzle assembly, an embodiment is disclosed in which one side portion of the enclosure for the fan-spray is adapted to form a gum scraper to be utilized when flooring and like surfaces are being cleaned.
The beneficial effects described above apply generally to the exemplary devices and mechanisms disclosed herein of the high pressure spray nozzle with abrasive feed arrangement, especially as an incorporation into a system and method for cleaning various articles within an enclosed compartment. The specific structures through which these benefits are delivered will be described in detail hereinbelow.
The invention will now be described in greater detail in the following way of example only and with reference to the attached drawings, in which:
a and 1b serve as comparative views between the nozzle assembly of the present invention and a previously known design, respectively.
a and 2b are cross-sectional views of the developed spray patterns taken along the lines 2a—2a (present invention) and 2b—2b (previously known design) of the spray, respectively.
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention that may be embodied in various and alternative forms. The figures are not necessarily to scale, some features may be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention.
Referring to Figs., a nozzle assembly 10 for a pressured fluid stream entrained with abrasive is shown. The nozzle includes a pressured fluid receiving portion 15 adapted to accommodate a pressured fluid dispenser 20. An abrasive entrainment chamber 25 is oriented to accept pressured fluid jetted thereacross from the pressured fluid dispenser. The abrasive entrainment chamber is adapted to establish a venturi suction responsive to pressured fluid being jetted thereacross. An access port 30 is provided in fluid communication with the abrasive entrainment chamber for permitting suction of abrasive into the abrasive entrainment chamber for entrainment in a pressured fluid being jetted thereacross. A spray enclosure 35 is positioned at the abrasive entrainment chamber and oriented to receive pressured fluid dispensed from the pressured fluid dispenser at the pressured fluid receiving portion. The spray enclosure is configured to substantially conform to a spray pattern 40 of pressured fluid jetted from the pressured fluid dispenser with minimized influence on the spray pattern at side-edge portions 45 thereof for promoting substantially uniform dispersion of pressured fluid and abrasive across the spray pattern.
In one embodiment, at least one of the side-edge portions 45 is extended thereby forming a chewing gum scraper that can be utilized when mechanical scrapping in addition to the abrasive spray wash is required to remove a piece of discarded chewing gum which has become cement-like upon a flooring surfaces.
As indicated, a pressured fluid dispenser is positioned at the pressured fluid receiving portion and arranged to spray a substantially fan-shaped pressured fluid jet across the abrasive entrainment chamber. The fluid jet has a width-wise axis 50 and a height-wise axis 55. The height-wise axis is measured substantially perpendicular to the width-wise axis. The fluid jet has two side-edge portions 45, one each on either of two sides and adjacent to an interior portion 65 of the fluid jet. The fluid jet has a substantially uniform dispersion along the width-wise axis with respect to both the fluid carrier or medium, usually water or a water-containing solution, and abrasive material such as sodium bicarbonate entrained therein.
The spray enclosure is substantially fan-shaped in a plane oriented to include the width-wise axis of the fluid jet and perpendicularly intersecting the height-wise axis of the fluid jet. The spray enclosure has interior side walls configured to substantially align, causing a minimum of interference, with outer side-surfaces of the fluid jet.
The spray enclosure is of a substantially truncated triangular-shape 80 in the plane oriented to include the width-wise axis of the fluid jet and perpendicularly intersecting the height-wise axis of the fluid jet. The truncated end 85 forms an inlet 90 for pressured fluid directed thereinto. The spray enclosure flares outwardly from the inlet to an exit 95 along the plane thereby maintaining a substantially uniform fluid dispersion across the width-wise axis.
The spray enclosure has top and bottom walls 100,105 respectively, that converge toward one another from the inlet to the exit along the height-wise axis for focusing the fluid jet and thereby facilitating the maintenance of the substantially uniform fluid dispersion across the width-wise axis.
A shut-off valve is arranged across the access port for permitting, prohibiting and adjusting an abrasive load drawable into the abrasive entrainment chamber.
An abrasive entraining assembly 110 is associated with the nozzle assembly comprising. An abrasive metering assembly 115 comprising a ball valve 120 is positioned at a juncture 125 between an air intake 130, an abrasive supply 135 and the access port 30 for controlling fluid communication therebetween. A ball member 135 of the ball valve is adapted to regulate an amount of abrasive permitted to be deployed from the abrasive supply into air taken up through the air intake.
The air intake further includes a variably adjustable closure member 145 adapted to increase and decrease amounts of air permitted to be drawn through the air intake by rotation of the closure member. The closure member has a threaded cylindrical portion 150 adapted to be threadedly received in a tapped receiver 155 in the abrasive metering assembly. At least one inlet aperture 160 extends through a side wall 165 of the closure member and is arranged to have a degree of openness thereof adjustable by rotation of the closure member.
The abrasive metering assembly further includes a housing body 170 having an abrasive supply inlet 175 extending therethrough and arranged to communicate with an abrasive inlet aperture 180 through the ball member of the ball valve when the abrasive entraining assembly is in an abrasive dispensing configuration. The ball member has an open cylinder 185 (not shown) extending therethrough and arranged to align with the abrasive supply inlet in an abrasive blocking configuration. The open cylinder is arranged to form a flow-through channel across the abrasive metering assembly in an abrasive dispensing configuration.
The inlet aperture extends through a wall 190 (not shown) of the open cylinder and is arranged to dispense abrasive into the abrasive entraining assembly when the abrasive metering assembly is in an abrasive dispensing configuration.
In one particularly advantageous configuration, one or more nozzle assemblies 10 are incorporated into a cleaning system 210 adapted for cleaning, polishing and similar treatments of different articles. In the illustrated embodiment of
Referring now to
The cabinet 213 rests upon a support assembly 219 that in the illustrated embodiment takes the form of four caster wheels 223. The cabinet 213 may, however, be configured to be stationarily installed or mounted on any other suitable transport mechanism.
As shown, the door 229 is constructed with a holding rack 233 connected at a back or interior side thereof. In this manner, the holding rack, together with the golf club heads contained therein, are positioned within the cleaning compartment 226 when the door 229 is closed. In the preferred and shown embodiment, golf club heads rest in the holding rack 233 at a location near the bottom portion of the door 229. The golf club handles extend upwardly therefrom and are installed into access ports 236 which accommodate the positioning of the normally leather-gripped handles outside of the cleaning compartment 226 to prevent their getting wet during the scour and rinse cycles. A buffering seal member(s) 239 is installed in an interior space of the access ports 236. The buffering seals 239 are configured so that the golf club is frictionally held therein at a location below the grip of the club. Not only is a friction fit established for securing the club, but so is a seal about the golf club so that cleaning solution is prevented from escaping the cleaning compartment 226 during the cleaning process.
A lock assembly 243 is provided upon the door 229 and is adapted for latching cooperation, when in a closed configuration, with the housing 213 the cleaning compartment 226. A door seal 246 is positioned interstitially between the door 229 and a front face of the cabinet housing 213. A status sensor 249 is also provided that is capable of detecting whether or not the door 229 is open, closed, and optionally, locked. As a safety precaution, the control circuitry may be configured to require that the sensor must detect that the door is at least closed, and preferably locked, before cleaning operation can be initiated.
Looking to
Two nozzle assemblies 266 are mounted on the carrier 263. The connection 276 between the nozzle assemblies 266 and the carrier 263 may be fixed, pivotal, or movable with respect to all three dimensions. By being able to variously configure the two nozzle assemblies 266, different application directions of pressured cleaning solution can be achieved. In the illustrated embodiment, the top nozzle 269 is directed substantially downwardly and the bottom nozzle is directed, at least slightly, upwardly. Because of the fan-shape of the dispensed cleaning solution, excellent cleaning results are achieved because of the thorough coverage enabled by the design of the nozzle assemblies 266 according to the teachings provided herein relative to the nozzle assembly 10. As will be discussed in greater detail hereinbelow, supply conduits 279 may be appreciated in
The supply conduits 279 form passages between the cleaning compartment 226 and a mechanical compartment 289. The mechanical compartment 289 is best appreciated in
A high-pressure water pump 296 is provided for supplying pressured cleaning solution, normally in the form of water taken from a standard tap. As an accommodation, a water inlet 316 is located in a lower portion of the mechanical compartment 289 where a standard garden-style hose can be connected for supplying the necessary water to the pump 296. From the pump, the fluid supply conduits 283 are directed into the cleaning compartment 226. Conventional toothed gears 306 are provided, one each, near end portions of the threaded guides 253. The gears 306 are positioned outside of the cleaning compartment 226 in the mechanical compartment 289. An adjustable speed drive motor 299 is connected via a drive chain 309 to each of the two gears 306. In the illustrated embodiment, the speed of the drive motor 299 is controlled using a rheostat 303. Because a common drive chain 309 drives both gears, synchronization is automatic. This is important for smooth traversal of the carrier 263 along the guides 253 in the cleaning compartment 226. Electrical service is provided by electrical power supply connection 319.
In operation, a cleaning cycle exemplarily includes a scouring period and a rinse period. Advantageously, this is achieved in the illustrated embodiment by having the scouring portion of the cycle occur as the carrier 263 initially passes from one end to the other of the cleaning compartment 226 on the guide rods 253. As the carrier 263 approaches the far end of the cleaning compartment 226, a reversing limit switch 256 is tripped. This causes a reversal in the direction of rotation of the guide rods 253 sending the carrier 263 back in the opposite direction toward its starting position. During this back-pass, the dispensation of abrasive particulate from the receptacle to 93 is ceased. This results in a rinse cycle that terminates when the carrier 263 engages a halting limit switch 259. As a result of the halting limit switch 259 being actuated, the washing cycle for the golf clubs ceases. Through out these several component processes of the overall washing cycle, indicative information is being displayed on the information panel 216. In this manner, an operator may monitor the progress of the wash cycle, as well as determine if any difficulties are encountered.
As indicated before, additional procedures may be incorporated into the cleaning process. For instance, a drying step might be added after scouring and rinse. Still further, the application of a spot-free rinse may be applied at conclusion of the rinse cycle. Still further, the configuration shown and described has been specially adapted for golf club cleaning. It should be equally appreciated that different configurations can be provided for the cleaning of such things as auto parts and other items typically requiring vigorous scouring, often with an abrasive medium included to insure thorough cleaning, and even polishing of the article.
An arrangement for an abrasive entrained power washing device and its components have been described herein. A preferred utilization of the nozzles is also shown in one embodiment of the invention adapted for cleaning golf clubs. These and other variations, which will be appreciated by those skilled in the art, are within the intended scope of this invention as claimed below. As previously stated, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention that may be embodied in various forms.
This application claims the benefit of U.S. Provisional Application No. 60/184,881 filed Feb. 25, 2000.
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| Number | Date | Country | |
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| 60184881 | Feb 2000 | US |
