An improved fluidic device that operates on a pressurized liquid flowing through it at a specified flow rate to generate an oscillating spray of liquid droplets having desired properties (e.g., average spatial distribution, size, velocity, frequency and wavelength of liquid droplets at a defined dis
An improved fluidic device that operates on a pressurized liquid flowing through it at a specified flow rate to generate an oscillating spray of liquid droplets having desired properties (e.g., average spatial distribution, size, velocity, frequency and wavelength of liquid droplets at a defined distance in front of the device) includes: (a) a plurality of fluidic oscillators, each having a channel that is part of a fluidic circuit for inducing oscillations in the pressurized liquid that flows through the oscillator, (b) a housing having an exterior surface that includes a front face with a center-point and a rear face, (c) a plurality of passages, each of which extends through the housing and intersects with its front face to define an outlet, with each passages configured to allow for the insertion of one of the plurality of fluidic oscillators into each of the plurality of passages, and (d) a geometrical arrangement of these outlets in the housing front face that is chosen so as to achieve the desired properties of the oscillating spray when the device is operating at its specified flow rate.
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1. A fluidic device that operates on a pressurized liquid flowing through said device at a specified flow rate to generate an oscillating spray of liquid droplets into a surrounding gaseous environment that has desired properties chosen from the group consisting of average spatial distribution, size
1. A fluidic device that operates on a pressurized liquid flowing through said device at a specified flow rate to generate an oscillating spray of liquid droplets into a surrounding gaseous environment that has desired properties chosen from the group consisting of average spatial distribution, size, velocity, frequency and wavelength of said liquid droplets at a defined distance in front of said device, said device comprising: a plurality of fluidic oscillators, each having a channel that is part of a fluidic circuit for inducing oscillations in said pressurized liquid that flows through said oscillator so as to emit a liquid jet in the form of an oscillating spray of liquid droplets,a housing having an exterior surface that includes a front face and a rear face and an intermediate boundary surface that connects said faces, said front face having a center-point,a plurality of passages, each of which extends through said housing and intersects with said front and rear faces,each of said passages configured to allow for the insertion of one of said plurality of fluidic oscillators into each of said plurality of passages,wherein said intersections of said plurality of passages with said housing front face defining a plurality of outlets, anda geometrical arrangement of said outlets in said housing front face that is chosen so as to achieve said desired properties of said oscillating spray with said device operating at said specified flow rate. 2. The fluidic device as recited in claim 1, wherein: said geometrical arrangement of outlets chosen from the group consisting of one or more of each said outlets arranged proximate the sides of one or more polygons that are centered at the center-point of said housing front face, or one or more of each of said outlets arranged on one of a plurality of radial lines that emanate from the center-point of said front face, or a combination of these prior listed arrangements that make up said group. 3. The fluidic device as recited in claim 1 wherein: each of said channels of said fluidic oscillators having dimensions that are chosen so as to achieve said desired properties of said oscillating spray with said device operating at said specified flow rate. 4. The fluidic device as recited in claim 2 wherein: each of said channels of said fluidic oscillators having dimensions that are chosen so as to achieve said desired properties of said oscillating spray with said device operating at said specified flow rate. 5. The fluidic device as recited in claim 1 wherein: said geometrical arrangement of outlets includes one of each said outlets arranged proximate the sides of an octagon that is centered at the center-point of said housing front face and a square that is centered at the center-point of said housing front face. 6. The fluidic device as recited in claim 3 wherein: said geometrical arrangement of outlets includes one of each said outlets arranged proximate the sides of an octagon that is centered at the center-point of said housing front face and a square that is centered at the center-point of said housing front face. 7. The fluidic device as recited in claim 1 further comprising: said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays. 8. The fluidic device as recited in claim 2 further comprising: said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays. 9. The fluidic device as recited in claim 3 further comprising: said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays. 10. The fluidic device as recited in claim 4 further comprising: said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays. 11. A method of making a fluidic device that operates on a pressurized liquid flowing through said device at a specified flow rate to generate an oscillating spray of liquid droplets into a surrounding gaseous environment that has desired properties chosen from the group consisting of average spatial distribution, size, velocity, frequency and wavelength of said liquid droplets at a defined distance in front of said device, said method comprising the steps of: forming a plurality of fluidic oscillators, each having a channel that is part of a fluidic circuit for inducing oscillations in said pressurized liquid that flows through said oscillator so as to emit a liquid jet in the form of an oscillating spray of liquid droplets,forming a housing having an exterior surface that includes a front face and a rear face and an intermediate boundary surface that connects said faces, said front face having a center-point,forming a plurality of passages, each of which extends through said housing and intersects with said front and rear faces,each of said passages configured to allow for the insertion of one of said plurality of fluidic oscillators into each of said plurality of passages,wherein said intersections of said plurality of passages with said housing front face defining a plurality of outlets, andforming a geometrical arrangement of said outlets in said housing front face that is chosen so as to achieve said desired properties of said oscillating spray with said device operating at said specified flow rate. 12. The method of making a fluidic device as recited in claim 11, wherein: said geometrical arrangement of outlets chosen from the group consisting of one or more of each said outlets arranged proximate the sides of one or more polygons that are centered at the center-point of said housing front face, or one or more of each of said outlets arranged on one of a plurality of radial lines that emanate from the center-point of said front face, or a combination of these prior listed arrangements that make up said group. 13. The method of making a fluidic device as recited in claim 11 wherein: each of said channels of said fluidic oscillators having dimensions that are chosen so as to achieve said desired properties of said oscillating spray with said device operating at said specified flow rate. 14. The method of making a fluidic device as recited in claim 12 wherein: each of said channels of said fluidic oscillators having dimensions that are chosen so as to achieve said desired properties of said oscillating spray with said device operating at said specified flow rate. 15. The method of making a fluidic device as recited in claim 11 wherein: said geometrical arrangement of outlets includes one of each said outlets arranged proximate the sides of an octagon that is centered at the center-point of said housing front face and a square that is centered at the center-point of said housing front face. 16. The method of making a fluidic device as recited in claim 13 wherein: said geometrical arrangement of outlets includes one of each said outlets arranged proximate the sides of an octagon that is centered at the center-point of said housing front face and a square that is centered at the center-point of said housing front face. 17. The method of making a fluidic device as recited in claim 11 further comprising the step of: forming on said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays. 18. The method of making a fluidic device as recited in claim 12 further comprising the step of: forming on said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays. 19. The method of making a fluidic device as recited in claim 13 further comprising the step of: forming on said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays. 20. The method of making a fluidic device as recited in claim 14 further comprising the step of: forming on said housing front face having at least one geometrical arrangement of a plurality of conventional orifices that emit conventional, non-oscillating jet sprays.
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