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Systems, methods and apparatus are provided through which in some implementations a pneumatic ported atomizing fluid delivery manifold includes a fluid delivery housing, the fluid delivery housing having a frustum geometry, the fluid delivery housing has a first end and a second end, the first end h

Systems, methods and apparatus are provided through which in some implementations a pneumatic ported atomizing fluid delivery manifold includes a fluid delivery housing, the fluid delivery housing having a frustum geometry, the fluid delivery housing has a first end and a second end, the first end has a first plane and the second end having a second plane, the fluid delivery housing has at least one chamber through which cleaning solution is operable to pass from the first end to the second end, and a free-floating pneumatic rotating exit tube positioned along a longitudinal center axis of the fluid delivery housing, the free-floating pneumatic rotating exit tube have only air passing through the free-floating pneumatic rotating exit tube.

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1. A pneumatic ported atomizing fluid delivery manifold comprising: a pneumatic ported fluid delivery manifold that comprises: a barrel having a central cavity, the barrel being operable to attach to a gas source;a gas/fluid delivery manifold formed out of walls of the pneumatic ported fluid deliver

1. A pneumatic ported atomizing fluid delivery manifold comprising: a pneumatic ported fluid delivery manifold that comprises: a barrel having a central cavity, the barrel being operable to attach to a gas source;a gas/fluid delivery manifold formed out of walls of the pneumatic ported fluid delivery manifold of the barrel; anda volume control device that is mounted on an exterior of the gas/fluid delivery manifold that is operable to adjust an amount of a fluid that is delivered to the gas/fluid delivery manifold the fluid volume control device includes an intake orifice through which the fluid enters the fluid volume control device of the pneumatic ported atomizing fluid delivery manifold;an apparatus that stores the fluid, the apparatus being connected to the fluid volume control device;a pneumatic ported atomizing assembly operably coupled to the pneumatic ported fluid delivery manifold and that includes a fluid delivery housing and a free-floating pneumatic rotating exit tube,the fluid delivery housing having a hollow frustum geometry, the fluid delivery housing having a first end and a second end, the first end having a first plane and the second end having a second plane, the fluid delivery housing having a plurality of chambers through which the fluid is operable to pass from the first end to the second end; andthe free-floating pneumatic rotating exit tube positioned along a longitudinal center axis of the fluid delivery housing and the free-floating pneumatic rotating exit tube having no inner fluid tube within the free-floating pneumatic rotating exit tube, the free-floating pneumatic rotating exit tube having only air passing through the free-floating pneumatic rotating exit tube, the free-floating pneumatic rotating exit tube having a curved nozzle tip;wherein the gas/fluid delivery manifold in the pneumatic ported fluid delivery manifold provides a passageway to deliver the fluid to the plurality of chambers,wherein the plurality of chambers in the fluid delivery housing further comprises: each of the plurality of chambers being positioned radially at a radius from the longitudinal center axis of the fluid delivery housing and symmetrically around the longitudinal center axis of the fluid delivery housing,wherein the plurality of chambers in the fluid delivery housing further comprises: a gas/fluid delivery chamber;a fluid bowl-chamber that is operably coupled to the gas/fluid delivery chamber, fluid bowl-chamber having exit holes;a pneumatic valve that is fitted internally in the pneumatic ported atomizing assembly;wherein a gas from the gas source passes through the central cavity of the pneumatic ported fluid delivery manifold and through a central cavity of the pneumatic ported atomizing assembly to the free-floating pneumatic rotating exit tube and out the curved nozzle tip of the free-floating pneumatic rotating exit tube, wherein an angle of the curved nozzle tip relative to the longitudinal center axis has an effect of exhausting the gas at an oblique angle to the longitudinal center axis which propels the free-floating pneumatic rotating exit tube in rotation, causing the gas to be expelled outward and backward from the second plane, wherein at the exit holes, the fluid from the exit holes and the gas from the free-floating pneumatic rotating exit tube are mixed together creating a fine mist of high pressure mixture of the gas and the fluid in a rotational motion, wherein a volume of the fluid from the gas/fluid delivery chamber to the fluid bowl-chamber can be switched on and off and varied by the pneumatic valve that is fitted internally in the pneumatic ported atomizing assembly and thus a force, speed and volume of the fluid from the exit holes can be switched on and off and varied by the pneumatic valve. 2. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the plurality of chambers in the fluid delivery housing further comprises: wherein at least one of the plurality of chambers is positioned above the center longitudinal axis to an extent that gravity is operable to draw a fluid out of the at least one of the plurality of chambers through the second end. 3. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the frustum geometry further comprises: a conical geometry. 4. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the frustum geometry further comprises: a triangular geometry. 5. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the frustum geometry further comprises: a square geometry. 6. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the frustum geometry further comprises: a pentagonal geometry. 7. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the frustum geometry further comprises: a linear frustum geometry. 8. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the frustum geometry further comprises: a curved frustum geometry. 9. The pneumatic ported atomizing fluid delivery manifold of claim 1, wherein the frustum geometry further comprises: a bent frustum geometry in which the first plane of the first end is not parallel with the second plane of the second end.