Patent Application
20220110345
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The prior art presents the “Snopes grain roaster” which, as far as the Applicant is aware was first used in 2008 to roast grains and pulses. It was configured to feed grains into a vessel using an auger, the grains were then exposed to a flame in the center of the vessel/drum; the vessel was tilted at an angle so as to keep the grains out of the flame.
No prior art is known to the Applicant.
A pulse cleaning system for disinfecting untreated grains and pulses. Said pulse cleaning system comprises an outer body, a top end, a top outer edge, a bottom end, and a conveyor. Said pulse cleaning system is useful in cleaning a dry commodity by inserting said dry commodity into said top end, cleaning said dry commodity within said outer body, releasing said dry commodity at said bottom end, and collecting said dry commodity on said conveyor. Said outer body comprises a top opening at said top end, and a bottom opening at said bottom end. each among one or more exterior burner assemblies and an interior chamber strip burner is configured to create variable flame according to an end user's preference, or according to amounts of a fuel provided. after treatment by said pulse cleaning system, said dry commodity is referred to as a treated grains and pulses.
The following description is presented to enable any person skilled in the art to make and use the invention as claimed and is provided in the context of the particular examples discussed below, variations of which will be readily apparent to those skilled in the art. In the interest of clarity, not all features of an actual implementation are described in this specification. It will be appreciated that in the development of any such actual implementation (as in any development project), design decisions must be made to achieve the designers' specific goals (e.g., compliance with system- and business-related constraints), and that these goals will vary from one implementation to another. It will also be appreciated that such development effort might be complex and time-consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the field of the appropriate art having the benefit of this disclosure. Accordingly, the claims appended hereto are not intended to be limited by the disclosed embodiments, but are to be accorded their widest scope consistent with the principles and features disclosed herein.
The following description is presented to enable any person skilled in the art to make and use the invention as claimed and is provided in the context of the particular examples discussed below, variations of which will be readily apparent to those skilled in the art. In the interest of clarity, not all features of an actual implementation are described in this specification. It will be appreciated that in the development of any such actual implementation (as in any development project), design decisions must be made to achieve the designers' specific goals (e.g., compliance with system- and business-related constraints), and that these goals will vary from one implementation to another. It will also be appreciated that such development effort might be complex and time-consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the field of the appropriate art having the benefit of this disclosure. Accordingly, the claims appended hereto are not intended to be limited by the disclosed embodiments, but are to be accorded their widest scope consistent with the principles and features disclosed herein.
In one embodiment, said pulse cleaning system 100 can comprise an outer body 102, a top end 104, a top outer edge 106, a bottom end 108, and a conveyor 110.
In one embodiment, said pulse cleaning system 100 can be useful in cleaning a dry commodity 122 (illustrated below) by inserting said dry commodity 122 into said top end 104, cleaning said dry commodity 122 within said outer body 102, releasing said dry commodity 122 at said bottom end 108, and collecting said dry commodity 122 on said conveyor 110.
Said pulse cleaning system 100 can further comprise one or more exterior burner assemblies 124 (which can comprise a first exterior burner assembly 124a, a second exterior burner assembly 124b, a third exterior burner assembly 124c, and a fourth exterior burner assembly 124d), and one or more air blower assemblies 126 comprising at least a first air blower assembly 126a.
In one embodiment, said outer body 102 can be cylindrical, as illustrated, or rectangular. In one embodiment, said conveyor 110 can carry said dry commodity 122, such as grains and pulses, to a tote for shipping.
In one embodiment, pulses and grains can be cleaned and filtered using said pulse cleaning system 100 in a manner superior to the prior art. For example, for organic foods, pesticides are limited or outright disallowed in food production. Accordingly, the current system can be used to control pests without chemical additives.
As illustrated, said top outer edge 106 can comprise a raised edge around a perimeter of said top end 104. Wherein,
said pulse cleaning system 100 can comprise an inner chamber 218 within said outer body 102
In one embodiment, said one or more air blower assemblies 126 can receive a pressurized air.
In one embodiment, after untreated grains and pulses 120 are cleaned using said pulse cleaning system 100, a treated portion can be carried away by said conveyor 110.
Shown in dashed line is a call-out 216, to be illustrated in detail in
Said pulse cleaning system 100 can further comprise a center support cylinder 230 and one or more center strip burners 232 (which can comprise a first center strip burner 232a, a second center strip burner 232b, and a third center strip burner 232c). In one embodiment, said one or more center strip burners 232 can attach to portions of said center support cylinder 230. In one embodiment, said one or more center strip burners 232 can be roughly aligned with said one or more exterior burner assemblies 124 to ensure said untreated grains and pulses 120 pass between said one or more exterior burner assemblies 124 and said one or more center strip burners 232.
In one embodiment, said outer body 102 can comprise a top opening 202 at said top end 104, and a bottom opening 204 at said bottom end 108.
Each of said one or more exterior burner assemblies 124 can comprise a fluid delivery ring 220, and an interior chamber strip burner 222. Said interior chamber strip burner 222 can be aligned with and touching an inner surface 224 of side walls 210 of said outer body 102. Said fluid delivery ring 220 can comprise a fluid cavity 226, and said interior chamber strip burner 222 can comprise a fluid cavity 228, as discussed below.
In one embodiment, said fluid delivery ring 220 can receive a fuel 400 from a fuel reservoir 402, deliver said fuel 400 to said interior chamber strip burner 222 through an aperture in said side walls 210, deliver said fuel 400 throughout said interior chamber strip burner 222, and ignite said fuel 400 about a plurality of strip burner apertures 404 so as to create variable flame 208 within said outer body 102 directed toward a center axis 406 of said outer body 102.
In one embodiment, said fuel 400 can be delivered to said one or more exterior burner assemblies 124 through a fuel line 408.
Each among said one or more exterior burner assemblies 124 can comprise said fluid delivery ring 220, said interior chamber strip burner 222, one or more fuel connectors 500, a height 502, a width 504, an internal diameter 506, and an external diameter 508.
Said interior chamber strip burner 222 can comprise an exterior surface 510, an interior surface 512, said plurality of strip burner apertures 404, and one or more connector receivers 516. In one embodiment, said exterior surface 510 can press against or be adhered to a portion of said inner surface 224 of said side walls 210. Said one or more connector receivers 516 can comprise a threaded aperture in said exterior surface 510 for receiving and holding a portion of said one or more fuel connectors 500. Said plurality of strip burner apertures 404 can be in a portion of said interior surface 512.
In one embodiment, said fluid delivery ring 220 can comprise a ring having an interior diameter 518 being substantially equal to an outer diameter of said outer body 102. Said fluid delivery ring 220 can further comprise an outer surface 520 and an inner surface 522, relative to said center axis 406. Said fluid delivery ring 220 can further comprise one or more connector receivers along said inner surface 522 for attaching to a portion of said one or more fuel connectors 500, and a fuel line inlet for connecting to a portion of said fuel line 408.
In one embodiment, said fluid cavity 228 of said interior chamber strip burner 222 can be in a fluid connection with said fluid cavity 226 of said fluid delivery ring 220 through a portion of said one or more fuel connectors 500. Thereby, said fuel 400 can be delivered to said plurality of strip burner apertures 404 from said fuel reservoir 402, through said fuel line 408, through said fluid delivery ring 220, through said one or more fuel connectors 500, into said fluid cavity 228 of said interior chamber strip burner 222, and out of said plurality of strip burner apertures 404.
In one embodiment, said pulse cleaning system 100 can comprise an auger assembly 604 within said inner chamber 218. In one embodiment, said auger assembly 604 can be used to catch and slow a progress of said untreated grains and pulses 120 as they progress from said top end 104 to said bottom end 108. As is known, said auger assembly 604 can spin about said center axis 406 so as to create a slowing progressing downward chamber for said untreated grains and pulses 120 as they pass one or more of said one or more exterior burner assemblies 124, such as said fourth exterior burner assembly 124d in the given example.
Each among said one or more exterior burner assemblies 124 and said interior chamber strip burner 222 can create said variable flame 208 according to an end user's preference, or according to amounts of said fuel 400 provided.
In one embodiment, said one or more air blower assemblies 126 can each comprise one or more air nozzles 700 (which can comprise a first air nozzle 700a, a second air nozzle 700b, a third air nozzle 700c, and a fourth air nozzle 700d). Wherein, said one or more air nozzles 700 can extend within said inner chamber 218 and blow air or other fluids into said untreated grains and pulses 120 as they fall, with the end goal of slowing progress or exposing said untreated grains and pulses 120 to said variable flame 208 for a longer period of time.
In one embodiment, said top end 104 can comprise said top outer edge 106 surrounding said top opening 202 with a downward sloping face 702 between said top outer edge 106 and said top opening 202 which creates a funnel shape to direct said untreated grains and pulses 120 into said inner chamber 218 through said top opening 202.
In one embodiment, said pulse cleaning system 100 can further comprise a variable plugging assembly 704 aligned with said center axis 406 and said top opening 202. Said variable plugging assembly 704 can comprise a base portion 706 and a top portion 708; wherein an outward sloping face 710 can widen as it tapers down and out from said center axis 406.
As illustrated, said dry commodity 122 can flow into said inner chamber 218 through said top opening 202, past said one or more exterior burner assemblies 124 and said one or more center strip burners 232, be blown and disrupted by said one or more air blower assemblies 126 with said one or more air nozzles 700, land on auger 214, and exit out said bottom opening 204.
In one embodiment, said dry commodity 122 can exit said bottom opening 204 and land on said conveyor 110. After treatment by said pulse cleaning system 100, said dry commodity 122 can be referred to as a treated grains and pulses 212.
In one embodiment, said variable plugging assembly 704 can be raised and lowered and thereby alter a variable gap 904 between said downward sloping face 702 and said variable plugging assembly 704 in said top opening 202.
Benefits of flame treating grains and pulses are substantial. Tests show that a flame will kill insect and minimize the presence of alpha-toxins and pham. to single digits parts per million (approx. 4 ppm). Additionally, tests show that untreated corn can be as high as 2000 ppm, and 0 ppm after treatment.
In many cases there is a strict bar to shipping foods with insects. This is a meaningful limitation when half of the United States' pulses crop is shipped to India.
In one embodiment, a first step 1002 of said method of using a pulse cleaning system 1000 can comprise receiving said outer body 102 at said pulse cleaning system 100 at said top end 104; a second step 1004 can comprise channeling said untreated grains and pulses 120 past said one or more exterior burner assemblies 124; a third step 1006 can comprise removing toxins and pests from said untreated grains and pulses 120 using said variable flame 208 generated by said one or more exterior burner assemblies 124; and a fourth step 1008 can comprise removing the dead insect carcasses from the grains for purity purposes. In one embodiment, said method of using a pulse cleaning system 1000 can further comprise monitoring said untreated grains and pulses 120 with a sensor and air blasting dead insect carcasses before they arrive at said bottom opening 204.
For completeness, the following sentences are modeled after the claims and represent a preferred embodiment of the current application.
Said pulse cleaning system 100 for disinfecting said untreated grains and pulses 120. Said pulse cleaning system 100 comprises said outer body 102, said top end 104, said top outer edge 106, said bottom end 108, and said conveyor 110. Said pulse cleaning system 100 can be useful in cleaning said dry commodity 122 by inserting said dry commodity 122 into said top end 104, cleaning said dry commodity 122 within said outer body 102, releasing said dry commodity 122 at said bottom end 108, and collecting said dry commodity 122 on said conveyor 110. Said outer body 102 comprises said top opening 202 at said top end 104, and said bottom opening 204 at said bottom end 108. each among said one or more exterior burner assemblies 124 and said interior chamber strip burner 222 can be configured to create said variable flame 208 according to an end user's preference, or according to amounts of said fuel 400 provided. after treatment by said pulse cleaning system 100, said dry commodity 122 can be referred to as said treated grains and pulses 212.
Said pulse cleaning system 100 can be configured to further comprise said one or more exterior burner assemblies 124 (which comprises said first exterior burner assembly 124a, said second exterior burner assembly 124b, said third exterior burner assembly 124c, and said fourth exterior burner assembly 124d), and said one or more air blower assemblies 126 comprising at least said first air blower assembly 126a.
each of said one or more exterior burner assemblies 124 comprises said fluid delivery ring 220, and said interior chamber strip burner 222. Said interior chamber strip burner 222 can be aligned with and touching said inner surface 224 of said side walls 210 of said outer body 102. Said fluid delivery ring 220 comprises said fluid cavity 226, and said interior chamber strip burner 222 comprises said fluid cavity 228, as discussed below.
Said fluid delivery ring 220 can be configured to receive said fuel 400 from said fuel reservoir 402, deliver said fuel 400 to said interior chamber strip burner 222 through an aperture in said side walls 210, deliver said fuel 400 throughout said interior chamber strip burner 222, and ignite said fuel 400 about said plurality of strip burner apertures 404 so as to create said variable flame 208 within said outer body 102 directed toward said center axis 406 of said outer body 102. Said fuel 400 can be delivered to said one or more exterior burner assemblies 124 through said fuel line 408.
Said pulse cleaning system 100 comprises said auger assembly 604 within said inner chamber 218. Said auger assembly 604 can be used to catch and slow a progress of said untreated grains and pulses 120 as they progress from said top end 104 to said bottom end 108. Said auger assembly 604 can be configured to spin about said center axis 406 so as to create a slowing progressing downward chamber for said untreated grains and pulses 120 as they pass one or more of said one or more exterior burner assemblies 124, such as said fourth exterior burner assembly 124d in the given example.
Said one or more air blower assemblies 126 can be configured to each comprise said one or more air nozzles 700. Said one or more air nozzles 700 can comprise at least said first air nozzle 700a. Said one or more air nozzles 700 can be configured to extend within said inner chamber 218 and blow air or other fluids into said untreated grains and pulses 120 as they fall. Said one or more air nozzles 700 can cause said untreated grains and pulses 120 to slow and disperse while falling through said variable flame 208.
Said top end 104 comprises said top outer edge 106 surrounding said top opening 202 with said downward sloping face 702 between said top outer edge 106 and said top opening 202 which creates a funnel shape to direct said untreated grains and pulses 120 into said inner chamber 218 through said top opening 202. Said pulse cleaning system 100 can be configured to further comprise said variable plugging assembly 704 aligned with said center axis 406 and said top opening 202. Said variable plugging assembly 704 comprises said base portion 706 and said top portion 708. wherein said outward sloping face 710 can be configured to widen as it tapers down and out from said center axis 406.
Said variable plugging assembly 704 can be raised and lowered and thereby alter said variable gap 904 between said downward sloping face 702 and said variable plugging assembly 704 in said top opening 202.
Said dry commodity 122 can be configured to flow into said inner chamber 218 through said top opening 202, past said one or more exterior burner assemblies 124 and said one or more center strip burners 232, be blown and disrupted by said one or more air blower assemblies 126 with said one or more air nozzles 700, land on said auger 214, and exit out said bottom opening 204.
Said dry commodity 122 can be configured to exit said bottom opening 204 and land on said conveyor 110.
Various changes in the details of the illustrated operational methods are possible without departing from the scope of the following claims. Some embodiments may combine the activities described herein as being separate steps. Similarly, one or more of the described steps may be omitted, depending upon the specific operational environment the method is being implemented in. It is to be understood that the above description is intended to be illustrative, and not restrictive. For example, the above-described embodiments may be used in combination with each other. Many other embodiments will be apparent to those of skill in the art upon reviewing the above description. The scope of the invention should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled. In the appended claims, the terms “including” and “in which” are used as the plain-English equivalents of the respective terms “comprising” and “wherein.”
| Number | Date | Country | |
|---|---|---|---|
| 63198292 | Oct 2020 | US |
