Not applicable.
Not applicable.
None of the known inventions and patents, taken either singularly or in combination, is seen to describe the instant disclosure as claimed.
A tank assembly. Said tank assembly comprises a one or more blister assemblies, a shell assembly, a one or more air inlet hoses, a one or more spray equipment and a slurry mixture. Said one or more blister assemblies comprises a first blister assembly and a second blister assembly. Said one or more blister assemblies comprise a one or more draw tubes, a one or more cone flanges, a one or more head assemblies, a one or more shells, a one or more cone assemblies, an air line assembly, a one or more snorkel assemblies, and a separation distance. Said one or more draw tubes comprise a first draw tube and a second draw tube. Said separation distance between said one or more draw tubes is configured to allow said one or more spray equipment to rotate freely on said one or more draw tubes without interfering with one another. Said one or more draw tubes selectively mate with said one or more cone flanges. Said one or more cone flanges are attached at a lower point in said one or more cone assemblies and gather portions of said slurry mixture. Said tank assembly is configured to selectively channel said slurry mixture into said one or more draw tubes by opening a gap between said one or more draw tubes and said one or more cone flanges.
A tank assembly. Said tank assembly comprises a one or more blister assemblies, a shell assembly, a one or more air inlet hoses, a one or more spray equipment and a slurry mixture. Said one or more blister assemblies comprises a first blister assembly and a second blister assembly. Said one or more blister assemblies comprise a one or more draw tubes, a one or more cone flanges, a one or more head assemblies, a one or more shells, a one or more cone assemblies, an air line assembly, a one or more snorkel assemblies, and a separation distance. Said one or more draw tubes comprise a first draw tube and a second draw tube.
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.
These parts are illustrated in the figures and discussed below:
In one embodiment, said tank assembly 100 can comprise said one or more blister assemblies 102, said shell assembly 104, said one or more leg assemblies 106, said head assembly 108, said cone assembly 110 and said second upper aperture 128b.
In one embodiment, said one or more blister assemblies 102 can comprise said first blister assembly 102a, said second blister assembly 102b, said slurry mixture 114, said second draw tube 116b, said second cone flange 118b, said second cone flange 118b, said second head assembly 120b, said second shell 122b, said second cone assembly 124b, said second lower aperture 126b, said second middle aperture 127b and said second blister coupling 130b.
In one embodiment, said first blister assembly 102a can comprise said first cone flange 118a.
In one embodiment, said second blister assembly 102b can comprise said second cone flange 118b.
In one embodiment, said one or more leg assemblies 106 can comprise said one or more leg covers 112.
In one embodiment, said one or more leg covers 112 can comprise said first leg cover 112a, said second leg cover 112b, said third leg cover 112c and said fourth leg cover 112d.
In one embodiment, said one or more draw tubes 116 can comprise said first draw tube 116a and said second draw tube 116b.
In one embodiment, said one or more cone flanges 118 can comprise said first cone flange 118a and said second cone flange 118b.
In one embodiment, said one or more head assemblies 120 can comprise said first head assembly 120a, said second head assembly 120b and said one or more blister couplings 130.
In one embodiment, said first head assembly 120a can comprise said first blister coupling 130a.
In one embodiment, said second head assembly 120b can comprise said second blister coupling 130b.
In one embodiment, said one or more shells 122 can comprise said first shell 122a and said second shell 122b.
In one embodiment, said one or more cone assemblies 124 can comprise said first cone assembly 124a and said second cone assembly 124b.
In one embodiment, said one or more lower apertures 126 can comprise said first lower aperture 126a and said second lower aperture 126b.
In one embodiment, said one or more upper apertures 128 can comprise said first upper aperture 128a and said second upper aperture 128b.
In one embodiment, said one or more blister couplings 130 can comprise said first blister coupling 130a and said second blister coupling 130b.
In one embodiment, said one or more middle apertures 127 can comprise said first middle aperture 127a and said second middle aperture 127b.
Said tank assembly 100 can comprise a system for spraying a dustless stream for removal of paint, grime, chemicals, or similar.
Said tank assembly 100 is similar to a system(s) incorporated by reference to this application (Ser. No. 14/848,330 filed on Sep. 8, 2015, Ser. No. 14/773,694 filed on Sep. 8, 2015, PCT/US14/22170 filed on Mar. 7, 2014 and 61/773,816 filed on Mar. 7, 2013) but with at least one distinction in that said one or more blister assemblies 102 are designed to provide more than one outflowing stream from said tank assembly 100.
Said one or more leg assemblies 106 can support upper portions of said tank assembly 100, such as said one or more blister assemblies 102 and said shell assembly 104, as illustrated.
In one embodiment, said one or more blister assemblies 102 and said shell assembly 104 can comprise three chambers for storing and distributing said slurry mixture 114.
In one embodiment, said slurry mixture 114 can comprise a proprietary mixture of abrasive and fluids such as water.
Said one or more blister assemblies 102 and said shell assembly 104 are in fluid connection at said one or more lower apertures 126 and said one or more upper apertures 128 which allow portions of said slurry mixture 114 to: beginning in said shell assembly 104 and then slide down and into said one or more blister assemblies 102 toward said one or more cone flanges 118 and the bottom portion of said one or more draw tubes 116.
Said one or more draw tubes 116 and said 118 can operate as with the parent application to this application, namely the pickup and delivery of said slurry mixture 114 through said one or more draw tubes 116 with assistance of an air hose (discussed below) attached to said one or more cone flanges 118.
Said one or more leg assemblies 106 are optional and comprise a means of supporting the weight and mass of said tank assembly 100, as is known in the art. In one embodiment, said tank assembly 100 can be built into a trailer.
In one embodiment, said one or more blister couplings 130 can allow portions of said one or more draw tubes 116 to pass into and out of said one or more blister assemblies 102 without breaking a seal between the volume within said one or more blister assemblies 102 and the outside environment.
In one embodiment, said one or more rocker arm pedestals 202 can comprise said first rocker arm pedestal 202a and said second rocker arm pedestal 202b.
In one embodiment, said one or more control box mounting bracket 206 can comprise said first control box mounting bracket 206a, said second control box mounting bracket 206b, said third control box mounting bracket 206c and said fourth control box mounting bracket 206d.
In one embodiment, said one or more sides 216 can comprise said first side 216a and said second side 216b.
In one embodiment, said tank assembly 100 can comprise said one or more rocker arm pedestals 202, said one or more hoisting lugs 204, said one or more control box mounting bracket 206, said airline bracket 208, said name plate bracket 210, said name plate 212 and said warning plate 214.
In one embodiment, said shell assembly 104 can comprise said one or more rocker arm pedestals 202, said one or more hoisting lugs 204, said one or more control box mounting bracket 206, said airline bracket 208, said name plate bracket 210, said name plate 212, said warning plate 214 and said outer body 218.
Said one or more rocker arm pedestals 202 can allow for the attachment of a rocker arm, as discussed below.
Said parts 204-214 can attach to various exterior locations of said shell assembly 104 as illustrated and known in the art.
In one embodiment, said shell assembly 104 can comprise a substantially cylindrical vessel with said one or more blister assemblies 102 attached on said one or more sides 216.
Said tank assembly 100 can comprise a stainless steel material.
In one embodiment, said one or more hoisting lugs 204 can be useful for lifting and moving portions of said tank assembly 100.
Said one or more control box mounting bracket 206 can hold a control system, as is known in the art.
In one embodiment, said one or more elbows 306 can comprise said first elbow 306a and said second elbow 306b.
In one embodiment, said one or more vibrator mounting brackets 328 can comprise said first vibrator mounting bracket 328a and said second vibrator mounting bracket 328b.
In one embodiment, said air line assembly 300 can comprise said nipple 302, said close nipple 304, said one or more elbows 306, said nipple 308, said moody nut gasket 310, said moody nut 312, said nipple TOE 314, said reducing elbow 316, said adjustable nipple 318, said pop-up cylinder assembly 320, said fill ring 322, said fill plug seat ring 324 and said snap ring 326.
In one embodiment, said one or more snorkel assemblies 330 can comprise said first snorkel assembly 330a and said second snorkel assembly 330b.
In one embodiment, said tank assembly 100 can comprise said air line assembly 300, said air line assembly 300, said nipple 302, said close nipple 304, said one or more elbows 306, said nipple 308, said moody nut gasket 310, said moody nut 312, said nipple TOE 314, said reducing elbow 316, said adjustable nipple 318, said pop-up cylinder assembly 320, said fill ring 322, said fill plug seat ring 324, said snap ring 326, said one or more vibrator mounting brackets 328 and said one or more snorkel assemblies 330.
In one embodiment, said air line assembly 300 can comprise a plumbing assembly. Likewise, said one or more snorkel assemblies 330 are adapted to create a fluid connection between an outside environment and the interior of said tank assembly 100.
Said pop-up cylinder assembly 320, said fill ring 322, said fill plug seat ring 324 and said snap ring 326 can mate with said head assembly 108. In one embodiment, said head assembly 108 can receive a portion of said slurry mixture 114 for filling said shell assembly 104 and said one or more blister assemblies 102.
In one embodiment, all welding and fabrication can be done in accordance with ASME boiler and pressure vessel code for unfired pressure vessels. Working pressure can comprise up to 150 PSI and working temperature of 300 degrees F. In one embodiment, said tank assembly 100 can comprise a volume of 25.48 cubic feet.
In one embodiment, said tripod support 910 can comprise said first support 910a, said second support 910b and said third support 910c.
In one embodiment, said head assembly 108 can comprise said head 902, said fill ring 904, said reinforcement ring 906, said coupling 908 and said tripod support 910.
In one embodiment, a portion of said slurry mixture 114 can be collected in said head assembly 108 and passed through said fill ring 904 into said coupling 908 and further into said shell assembly 104.
As illustrated, said one or more head assemblies 120 can comprise an embodiment without said one or more blister couplings 130 having been installed as yet.
In one embodiment, said one or more head assemblies 120 can be welded to said one or more shells 122; and said one or more shells 122 can be welded to said one or more cone assemblies 124.
In one embodiment, said one or more threaded couplings 1506 can comprise said first threaded coupling 1506a and said second threaded coupling 1506b.
In one embodiment, said one or more elbow 1510 can comprise said first elbow 1510a and said second elbow 1510b.
In one embodiment, said one or more pipe 1512 can comprise said first pipe 1512a and said second pipe 1512b.
In one embodiment, said tank assembly 100 can comprise said interior volume 1516 and said exterior environment 1518.
In one embodiment, said one or more snorkel assemblies 330 can comprise said one or more threaded couplings 1506, said one or more nipples 1508, said one or more elbow 1510 and said one or more pipe 1512.
In one embodiment, said first snorkel assembly 330a can comprise said first threaded coupling 1506a, said first nipple 1508a, said first elbow 1510a and said first pipe 1512a.
In one embodiment, said second snorkel assembly 330b can comprise said second threaded coupling 1506b, said second nipple 1508b, said second elbow 1510b and said second pipe 1512b.
In one embodiment, said one or more snorkel assemblies 330 can enter in said outer body 218 and turn up toward an upper portion of said shell assembly 104 so as to maximize the likelihood of being above said slurry mixture 114 within said shell assembly 104.
In one embodiment, said hand hole rings 1504 can comprise a location for a user to access into said exterior environment 1518.
In one embodiment, said one or more bridges 1802 can comprise said first bridge 1802a and said second bridge 1802b.
In one embodiment, said one or more blister assemblies 102 can comprise said first side 1800a, said second side 1800b, said front side 1800c, said back side 1800d, said back side 1800d, said one or more bridges 1802, said first bridge 1802a, said second bridge 1802b and said second bridge 1802b.
In one embodiment, said first blister assembly 102a can comprise said one or more bridges 1802, said first bridge 1802a and said second bridge 1802b.
As noted above, said one or more blister assemblies 102 can comprise said one or more head assemblies 120, said one or more shells 122, said one or more cone assemblies 124, said one or more cone flanges 118, said one or more bridges 1802, and said one or more blister couplings 130. Said one or more blister couplings 130 can allow a portion of said one or more draw tubes 116 to pass through said one or more head assemblies 120.
Said one or more bridges 1802 can protect and reinforce said one or more shells 122 at said second side 1800b.
In one embodiment, said one or more spider guides 1902 can comprise said first spider guide 1902a and said second spider guide 1902b.
In one embodiment, said first blister assembly 102a can comprise said first spider guide 1902a.
In one embodiment, said second blister assembly 102b can comprise said second spider guide 1902b.
In one embodiment, said cone assembly 110 can comprise said cone body 2002 and said cone cap plate 2004.
In one embodiment, said first head assembly 120a can comprise said blister head 2302 and said blister coupling 2304.
In one embodiment, said tank assembly 100 can comprise said cone flange 2802.
In one embodiment, said one or more extensions 3004 can comprise said first extension 3004a, said second extension 3004b and said third extension 3004c.
In one embodiment, said one or more right apertures 3006 can comprise said first right aperture 3006a, said second right aperture 3006b and said third right aperture 3006c.
In one embodiment, said one or more left apertures 3008 can comprise said first left aperture 3008a, said second left aperture 3008b and said third left aperture 3008c.
In one embodiment, said one or more spider guides 1902 can comprise said center aperture 3002, said one or more extensions 3004, said first extension 3004a, said second extension 3004b, said third extension 3004c, said one or more right apertures 3006, said first right aperture 3006a, said second right aperture 3006b, said third right aperture 3006c, said one or more left apertures 3008, said first left aperture 3008a, said second left aperture 3008b and said third left aperture 3008c.
In one embodiment, a portion of said one or more draw tubes 116 can pass through said center aperture 3002 so as to center and stabilize said one or more draw tubes 116 within said one or more blister assemblies 102. In one embodiment, said one or more right apertures 3006 and said one or more left apertures 3008 can allow portions of said slurry mixture 114 to pass freely below said one or more spider guides 1902. In one embodiment, said one or more spider guides 1902 can comprise a three points extending radially at 120 degree increments; namely said one or more extensions 3004, as illustrated. In one embodiment, said one or more extensions 3004 can press against an interior wall of said one or more blister assemblies 102.
In one embodiment, said center aperture 3102 can comprise said upper fitting 3106, said lower fitting 3108 and said center gap 3110.
In one embodiment, said one or more threaded sockets 3104 can comprise said first threaded socket 3104a and said second threaded socket 3104b.
In one embodiment, said one or more cone flanges 118 can comprise said center aperture 3102, said center aperture 3102, said upper fitting 3106, said lower fitting 3108 and said center gap 3110.
In one embodiment, said first leg cover 112a can comprise said first side 3702 and said second side 3704.
In one embodiment, said one or more vibrators 3802 can comprise said first vibrator 3802a and said second vibrator 3802b.
Said one or more vibrators 3802 can attach to said one or more vibrator mounting brackets 328. In one embodiment, said one or more vibrators 3802 can shake said shell assembly 104 and/or other portions of said tank assembly 100 to ensure said slurry mixture 114 move fluidly toward said one or more cone flanges 118.
In one embodiment, said one or more spray equipment 3902 can comprise said first spray equipment 3902a and said second spray equipment 3902b.
In one embodiment, said tank assembly 100 can comprise said separation distance 3904.
In one embodiment, said one or more blister assemblies 102 can comprise said one or more spray equipment 3902 and said separation distance 3904.
In one embodiment, said first blister assembly 102a can comprise said first spray equipment 3902a.
In one embodiment, said second blister assembly 102b can comprise said second spray equipment 3902b.
In one embodiment, said one or more spray equipment's 3902 can attach to said one or more blister assemblies 102 and said one or more draw tubes 116 with a rotating radius at said one or more blister couplings 130, as illustrated.
In one embodiment, said one or more blister assemblies 102 can be separated by said separation distance 3904 being far enough apart that said one or more spray equipment's 3902 won't interfere with one another during rotation.
Since said one or more spray equipment's 3902 can be used separately, more than one user or purpose can be accomplished by said tank assembly 100 simultaneously. Each among said one or more spray equipment's 3902 can comprise an independent control system, and each of among said one or more spray equipment's 3902 can use different nozzle sizes.
In one embodiment, said one or more control boxes 4000 can comprise said first control box 4000a and said second control box 4000b.
In one embodiment, said one or more air inlet hoses 4002 can comprise said first air inlet hose 4002a and said second air inlet hose 4002b.
In one embodiment, said one or more handles 4004 can comprise said first handle 4004a and said second handle 4004b.
In one embodiment, said tank assembly 100 can comprise said second control box 4000b, said second air inlet hose 4002b and said cap 4006.
here, said hand hole rings 1504 and/or said fill ring 904 can receive said cap 4006. Illustrations from the parent application to this one is used as a illustration of a potential use of said cap 4006.
In one embodiment, said tank assembly 100 can comprise said nozzle 4602.
The following sentences are included for completeness of this disclosure with reference to the claims.
A tank assembly 100. Said tank assembly 100 comprises a one or more blister assemblies 102, a shell assembly 104, a one or more air inlet hoses 4002, a one or more spray equipment 3902 and a slurry mixture 114. Said one or more blister assemblies 102 comprises a first blister assembly 102a and a second blister assembly 102b. Said one or more blister assemblies 102 comprise a one or more draw tubes 116, a one or more cone flanges 118, a one or more head assemblies 120, a one or more shells 122, a one or more cone assemblies 124, an air line assembly 300, a one or more snorkel assemblies 330, and a separation distance 3904. Said one or more draw tubes 116 comprise a first draw tube 116a and a second draw tube 116b. Said separation distance 3904 between said one or more draw tubes 116 is configured to allow said one or more spray equipment 3902 to rotate freely on said one or more draw tubes 116 without interfering with one another. Said one or more draw tubes 116 selectively mate with said one or more cone flanges 118. Said one or more cone flanges 118 are attached at a lower point in said one or more cone assemblies 124 and gather portions of said slurry mixture 114. Said tank assembly 100 is configured to selectively channel said slurry mixture 114 into said one or more draw tubes 116 by opening a gap between said one or more draw tubes 116 and said one or more cone flanges 118. A tank assembly 100.
Said tank assembly 100 comprises a one or more blister assemblies 102, a shell assembly 104, a one or more air inlet hoses 4002, a one or more spray equipment 3902 and a slurry mixture 114. Said one or more blister assemblies 102 comprises a first blister assembly 102a and a second blister assembly 102b. Said one or more blister assemblies 102 comprise a one or more draw tubes 116, a one or more cone flanges 118, a one or more head assemblies 120, a one or more shells 122, a one or more cone assemblies 124, an air line assembly 300, a one or more snorkel assemblies 330, and a separation distance 3904. Said one or more draw tubes 116 comprise a first draw tube 116a and a second draw tube 116b.
Said one or more draw tubes 116 selectively mate with said one or more cone flanges 118.
Said one or more cone flanges 118 are attached at a lower point in said one or more cone assemblies 124 and gather portions of said slurry mixture 114. Said tank assembly 100 is configured to selectively channel said slurry mixture 114 into said one or more draw tubes 116 by opening a gap between said one or more draw tubes 116 and said one or more cone flanges 118.
Said separation distance 3904 between said one or more draw tubes 116 is configured to allow said one or more spray equipment 3902 to rotate freely on said one or more draw tubes 116 without interfering with one another.
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.”
This application claims benefit to U.S. Patent Application Nos. 61/773,816 filed on Mar. 7, 2013, PCT/US14/22170 filed on Mar. 7, 2014, 14773694 filed on Sep. 8, 2015, Ser. No. 14/848,330 filed on Sep. 8, 2015 and 62/398,225 filed on Sep. 22, 2016.
Number | Date | Country | |
---|---|---|---|
62398225 | Sep 2016 | US |