Pressure differential material transport and disposal system
First Claim
Patent Images
1. A material disposal system, comprising:
- a. a material transfer conduit having an internal volume;
b. a pressure differential generator coupled to said material transfer conduit, wherein said pressure differential generator establishes an airflow having airflow characteristics within said internal volume of said material transfer conduit, and wherein said airflow transfers material flowably responsive to said air flow characteristics through said internal volume of said material transfer conduit;
c. a material separator coupled to said material transfer conduit, wherein said material separator has a configuration which alters said air flow characteristics to allow at least some of said material to separate from said air flow;
d. a comminutor chamber having an inlet coupled to said material separator, wherein said inlet conducts said material separated from said airflow to said comminutor chamber, and an outlet through which said material discharges when sufficiently reduced in size; and
e. a comminutor located within said comminutor chamber to comminuate said material conducted to said comminutor chamber; and
f. a comminutor drive assembly coupled to said comminutor.
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Accused Products
Abstract
A pressure differential material transport system to transfer materials with an airflow to a sewer system. Embodiments of the pressure differential material transport system may be used for residential or industrial applications to dispose of materials to the sewer or to a comminutor to reduce the size of materials prior to disposal.
33 Citations
55 Claims
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1. A material disposal system, comprising:
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a. a material transfer conduit having an internal volume;
b. a pressure differential generator coupled to said material transfer conduit, wherein said pressure differential generator establishes an airflow having airflow characteristics within said internal volume of said material transfer conduit, and wherein said airflow transfers material flowably responsive to said air flow characteristics through said internal volume of said material transfer conduit;
c. a material separator coupled to said material transfer conduit, wherein said material separator has a configuration which alters said air flow characteristics to allow at least some of said material to separate from said air flow;
d. a comminutor chamber having an inlet coupled to said material separator, wherein said inlet conducts said material separated from said airflow to said comminutor chamber, and an outlet through which said material discharges when sufficiently reduced in size; and
e. a comminutor located within said comminutor chamber to comminuate said material conducted to said comminutor chamber; and
f. a comminutor drive assembly coupled to said comminutor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55)
a. a second inlet; and
b. a second material transfer conduit coupled to said second inlet.
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22. A material disposal system as described in claim 21, further comprising a sink basin coupled to said second material transfer conduit, whereby said material collected in said sink basin transfers through said second material transfer conduit to said comminutor chamber.
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23. A material disposal system as described in claim 1, wherein said material flowably responsive to said airflow characteristics is selected from the group consisting of liquids, and solids.
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24. A material disposal system as described in claim 1, further comprising a closure operably coupled to said pressure differential generator, wherein said closure seals said comminutor chamber from said sink basin.
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25. A material disposal system as described in claim 1, further comprising a sewage system fluidically coupled to said outlet of said comminutor chamber.
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26. A material disposal system as described in claim 25, further comprising a second closure operably coupled to said sewage system, wherein said second closure seals said comminutor chamber from said sewage system.
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27. A material disposal system as described in claim 26, further comprising a storage element into which at least a portion of said material transfer conduit retracts.
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28. A material disposal system as described in claim 27, wherein said material transfer conduit comprises a flexible hose.
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29. A material disposal system as described in claim 28, wherein said flexible hose has an external diameter of between about three-quarters inch and about one and one-half inches.
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30. A material disposal system as described in claim 1, further comprising a surface interface element fluidicly coupled to said material transfer conduit, wherein said surface interface element conducts said airflow across a surface to transfer material flowably responsive to said airflow characteristics from said surface to said airflow within said internal volume of said material transfer conduit.
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31. A material disposal system as described in claim 30, wherein said surface interface element has a configuration to differentiate said material based upon material size.
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32. A material disposal system as described in claim 31, wherein a portion of said surface interface element flexibly conforms to said surface.
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33. A material disposal system as described in claim 32, wherein said portion of said surface interface element that flexible conforms to said surface comprises a squeegee.
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34. A material disposal system as described in claim 32, wherein said portion of said surface interface element that flexibly conforms to said surface comprises at least one brush element.
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35. A material disposal system as described in claim 34, further comprising a brush drive assembly.
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36. A material disposal system as described in claim 35, wherein said brush drive assembly comprises at least one rotation axis about which said at least one brush element rotates;
- and a brush rotation drive to which said at least one brush element is operably coupled.
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37. A material disposal system as described in claim 36, wherein said brush element removably couples to said brush drive assembly.
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38. A material disposal system as described in claim 32, further comprising a pad removably coupled to said surface interface element.
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39. A material disposal system as described in claim 38, ein said pad element removably couples to said brush element.
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40. A material disposal system as described in claim 1, further comprising a plurality of interchangeable surface interface elements, wherein said plurality of interchangeable surface interface elements conduct said airflow across a surface to transfer material flowably responsive to said airflow characteristics from said surface to said airflow within said internal volume of said material transfer conduit.
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41. A material disposal system as described in claim 1, wherein said surface is selected from the group consisting of a table top surface, a counter top surface, a sink surface, a kitchen appliance surface, a floor surface, a carpet surface, a cabinet surface, and a glazing surface.
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42. A material disposal system as described in claim 30, further comprising a liquid application assembly comprising:
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a. a liquid source;
b. a liquid application element;
c. a liquid transfer conduit between said liquid source and said liquid application element; and
d. a liquid delivery system to transfer liquid from said liquid source to said liquid application element through said liquid transfer conduit.
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43. A material disposal system as described in claim 42, wherein said liquid application element is coupled to said surface interface element.
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44. A material disposal system as described in claim 42, wherein said liquid source comprises a liquid reservoir.
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45. A material disposal system as described in claim 42, wherein said liquid delivery system comprises sufficient gas pressure applied to said liquid within said liquid reservoir to transfer said liquid from said liquid source to said liquid application element through said liquid transfer conduit.
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46. A material disposal system as described in claim 42, wherein said liquid delivery system comprises an electric pump fluidicly coupled to said liquid source and said liquid transfer conduit.
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47. A material disposal system as described in claim 42, wherein said liquid source comprises of pressurized water in a pipe.
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48. A material disposal system as described in claim 42, wherein said liquid delivery system comprises a coupler element between said water pipe and said liquid transfer conduit through which a part of said pressurized water transfers from said water pipe to said liquid transfer conduit.
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49. A material disposal system as described in claim 42, wherein at least a portion of said liquid transfer conduit is routed within said internal volume of said material transfer conduit.
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50. A material disposal system as described in claim 42, further comprising a cleaning material soluble in said liquid.
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51. A material disposal system as described in claim 50, wherein said cleaning material soluble in said liquid is selected from the group consisting of detergent, bleach, antimicrobial, and ammonia.
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52. A material disposal system as described in claim 1, further comprising a pressure differential actuator to activate said pressure differential generator.
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53. A material disposal system as described in claim 52, further comprising a surface interface element holder, wherein said surface interface element removably engages with said surface interface element holder.
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54. A material disposal system as described in claim 53, wherein said surface interface element holder comprises an annular collar that mates with a handle coupled to said surface interface element.
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55. A material disposal system as described in claim 54, wherein said surface interface element holder further comprises said pressure differential generator actuator, whereby said pressure differential generator operates upon removal of said surface interface element from said surface interface element holder, and whereby said pressure differential generator ceases operation upon return of said surface interface element to said surface interface element holder.
Specification
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Current AssigneeTommin Enterprises LLC
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Original AssigneeTommin Enterprises LLC
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InventorsGrimes, Richard T.
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Primary Examiner(s)Hong, William
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Application NumberUS10/163,608Publication NumberTime in Patent Office622 DaysField of Search241/19, 241/21, 241/24.11, 241/24.12, 241/46.17, 241/79.1, 241/DIG.38US Class Current241/46.17CPC Class CodesA47L 5/38 Built-in suction cleaner in...A47L 7/0095 Suction cleaners or attachm...A47L 9/0063 External storing devices; S...A47L 9/04 with driven brushes or agit...A47L 9/102 Dust separators cyclones A4...E03C 1/122 Pipe-line systems for waste...E03C 1/26 Object-catching inserts or ...E03C 1/266 Arrangement of disintegrati...Y10S 241/38 Solid waste disposal
