A common way of cleaning the condenser coil subassembly of an air conditioning apparatus, as is well known to persons in the art, is carried out by directing a stream of compressed air against such a subassembly to loosen debris from the coils contained therein. This method, while effective, will generate unwanted airborne pollution in the area of the cleaning operation since the debris, once loosened, is not confined. The present invention is directed to curing this problem by providing an effective, simple, and economic containment bag-type apparatus.
The prior art contains the description of various dust containment structures to use in the air cleaning of a variety of structures, including air conditioner elements (see, for example, U.S. Pat. Nos. 1,620,390 and 6,295,696; JP 2004/322,032; and WO 2010/064924). Other structures of this general type have been designed for use in the water washing of such structures (see JP 4052499 of Feb. 20, 1992 and JP11325502 of Nov. 26, 1999 and CN 201237332).
The enclosed Drawings illustrate the present invention wherein
surface and the apparatus of
The present invention, in one embodiment thereof, relates to a novel method for cleaning the condenser coil subassembly 11 (as shown in
After the bag 21 has been placed over the subassembly 11 to substantially enclose such subassembly, compressed air is then supplied through a hose 25 and through one (“inlet”) hole 23 into the interior of the enclosed area containing subassembly 11 to vigorously impact the condenser coils in that assembly and to thereby loosen and remove debris from the surface of the coils. Preferably, at the same time, vacuum air is supplied through another hose 26 through the other (“outlet”) hole 24 to suction off and thereby remove the thus loosened and airborne, but confined, debris from within the enclosed area covered by the bag into a suitable receptacle 27 for disposal (i.e., into a vacuum bag contained within a vacuum cleaner that is located outside the bag). This operation results in the cleaning of the condenser coil subassembly of attached debris without the debris being blown into the atmosphere as is done by the conventional cleaning practice.
The present invention also includes as another embodiment the novel combination of: (a) a condenser coil subassembly of an air conditioning apparatus and (b) the previously described flexible bag construction that is designed to fit over and generally around such subassembly, but not over or around the subassembly containing the other components of the air conditioner.
A third embodiment of the present invention includes the previously described flexible bag construction itself, which is especially adapted to perform the method of cleaning that was mentioned hereinabove as the first embodiment of the present invention.
Some preferable construction embodiments for the bag itself include the following:
(a) at least a portion of the surface of bag 21, preferably that portion containing the holes for both supplying pressurized and vacuum air, is formed of clear plastic material to allow clear and direct viewing of the cleaning operation occurring inside the bag as it progresses;
(b) the inlet and outlet holes in the surface of bag 21 each have a diameter that is larger than the diameter of the hoses used to supply air and vacuum and are formed in that clear plastic material with each such hole being covered on its periphery with a more flexible material 27 that each, in turn, contain a central hole therein which is more substantially the diameter of the hoses used to supply air and vacuum to assist in holding the hose means supplying air to and from the bag but allowing movement of those holes;
(c) a suitable drawstring 28, mated with an appropriate fastener 29, which is threaded through a channel edging 30 formed in the bag 21 immediately adjacent the opening of the bag to allow that opening to be closed around the bottom of the coil subassembly 11 when the bag is placed over that subassembly (this restricts debris from exiting through the opening during the cleaning operation); and
(d) one or more slit(s), designated by 31a, 31b and 31c in
(e) if desired, one or more of the rear panels of the bag bounding slits 31a through 31c can have their bottom peripheries extended to form an integral skirt to enhance the sealing action of the bag at the border portion between subassemblies 11 and 13 of the air conditioner apparatus.
This application claims the benefit of U.S. Provisional Patent Application No. 61/626,404, filed Sep. 26, 2011 in the name of Jacob F. Steinmann.
Number | Date | Country | |
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61626404 | Sep 2011 | US |
Number | Date | Country | |
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Parent | 13573539 | Sep 2012 | US |
Child | 16350077 | US |