Apparatus for controlled application of liquid streams to a substrate with diverted liquid collection system

What is claimed is: 1. An apparatus for intermittently applying a liquid from a pressurized source onto a target substrate ( 20 ) in a form of liquid streams ( 11 ), the apparatus comprising: a manifold chamber ( 111 ) for receiving the liquid from the pressurized source; a channel component ( 130 ) having a plurality of liquid channels ( 112 ) in fluid communication with the manifold chamber, each liquid channel of the plurality of liquid channels having a liquid discharge end ( 116 ) projecting towards the target substrate whereby the liquid from the manifold chamber passes through the plurality of liquid channels creating the liquid streams directed toward the target substrate, the channel component further having a landing ( 142 ) disposed adjacent to the liquid discharge ends of the plurality of liquid channels, the landing having a plurality of impingement jet positioning apertures ( 143 ) extending there through, each impingement jet positioning aperture of the plurality of impingement jet positioning apertures being associated with a corresponding liquid channel of the plurality of liquid channels and having a central axis oriented in an intersecting relation to a central axis of the corresponding liquid channel; an impingement jet module ( 200 ) having a plurality of impingement jet gas tubes ( 230 ) mounted in an impingement jet body ( 220 ) with tube distal ends ( 231 ) extending therefrom and tube proximal ends ( 233 ) opposite to the tube distal ends, each impingement jet gas tube of the plurality of impingement jet gas tubes arranged in a side-by-side relation with one another in a straight-line pattern within a common plane and having a jet tube opening, wherein each impingement jet gas tube of the plurality of impingement jet gas tubes is aligned with a corresponding impingement jet positioning aperture of the plurality of impingement jet positioning apertures, and with the tube distal ends of the plurality of impingement jet gas tubes further being inserted into the corresponding impingement jet positioning apertures, whereby an impingement stream passing through an impingement jet gas tube of the plurality of impingement jet gas tubes towards an associated liquid stream of the liquid streams will create a diverted flow path in the associated liquid stream, and wherein the tube proximal ends are bent away from the common plane to accommodate attachment of a gas supply; and a liquid collection module ( 300 ) adapted to capture the associated liquid stream in the diverted flow path, the liquid collection module ( 300 ) having an angle body ( 320 ) with a deflection surface ( 321 ), wherein the deflection surface ( 321 ) is oriented at an acute angle from an undisrupted flow path of the liquid streams when measured from a downstream position of the liquid streams; and characterized in that the jet tube openings of the impingement jet gas tubes are planar with a surface of the landing nearest to a location of the liquid streams; and wherein the jet tube openings of the plurality of impingement jet gas tubes are spaced at a distance of about 10 mils to about 25 mils from the undisrupted flow path of corresponding liquid streams of the liquid streams; and wherein the channel component includes an impingement jet mounting surface ( 144 ) on an opposite side of the landing, and wherein the impingement jet module includes an impingement jet module mounting surface ( 221 ) that the tube distal ends of the plurality of impingement jet gas tubes extend from, and wherein the tube distal ends of the plurality of impingement jet gas tubes extend into the plurality of impingement jet positioning apertures, and the impingement jet module mounting surface engages the impingement jet mounting surface of the channel component; and wherein the plurality of impingement jet positioning apertures are tapered with broader ends near the impingement jet module mounting surface of the impingement jet module and narrower ends near the landing of the channel component. 2. The apparatus as recited in claim 1 , wherein the central axis of each of the plurality of impingement jet positioning apertures is perpendicular to the central axis of the corresponding liquid channel. 3. The apparatus as recited in claim 1 , wherein an internal diameter of each of the plurality of impingement jet gas tubes is larger than a corresponding cross sectional width of the liquid discharge end in the corresponding liquid channel. 4. The apparatus as recited in claim 1 , wherein the landing is located recessed from the plurality of liquid channels and a path of the liquid streams therefrom. 5. The apparatus as recited in claim 1 , wherein the jet tube openings of the plurality of impingement jet gas tubes extend from the surface of the landing towards the location of the liquid streams. 6. The apparatus as recited in claim 1 , wherein the apparatus includes a plurality of impingement jet modules, each of the plurality of impingement jet modules having impingement jet gas tubes with tube distal ends which are inserted into associated impingement jet positioning apertures, and wherein the tube distal ends have corresponding jet tube openings aligned with corresponding liquid streams from corresponding liquid channels. 7. An apparatus for intermittently applying a liquid from a pressurized source onto a target substrate ( 20 ) in a form of liquid streams ( 11 ), the apparatus comprising: a manifold chamber ( 111 ) for receiving the liquid from the pressurized source; a channel component ( 130 ) having a plurality of liquid channels ( 112 ) in fluid communication with the manifold chamber, each liquid channel of the plurality of liquid channels having a liquid discharge end ( 116 ) projecting towards the target substrate whereby the liquid from the manifold chamber passes through the plurality of liquid channels creating the liquid streams directed toward the target substrate, the channel component further having a landing ( 142 ) disposed adjacent to the liquid discharge ends of the plurality of liquid channels, the landing having a plurality of impingement jet positioning apertures ( 143 ) extending there through, each impingement jet positioning aperture of the plurality of impingement jet positioning apertures being associated with a corresponding liquid channel of the plurality of liquid channels and having a central axis oriented in an intersecting relation to a central axis of the corresponding liquid channel; an impingement jet module ( 200 ) having a plurality of impingement jet gas tubes ( 230 ) mounted in an impingement jet body ( 220 ) with tube distal ends ( 231 ) extending therefrom and tube proximal ends ( 233 ) opposite to the tube distal ends, each impingement jet gas tube of the plurality of impingement jet gas tubes arranged in a side-by-side relation with one another in a straight-line pattern within a common plane and having a jet tube opening, wherein each impingement jet gas tube of the plurality of impingement jet gas tubes is aligned with a corresponding impingement jet positioning aperture of the plurality of impingement jet positioning apertures, and with the tube distal ends of the plurality of impingement jet gas tubes further being inserted into the corresponding impingement jet positioning apertures, whereby an impingement stream passing through an impingement jet gas tube of the plurality of impingement jet gas tubes towards an associated liquid stream of the liquid streams will create a diverted flow path in the associated liquid stream, and wherein the tube proximal ends are bent away from the common plane to accommodate attachment of a gas supply; and a liquid collection module ( 300 ) adapted to capture the associated liquid stream in the diverted flow path, the liquid collection module ( 300