초록 ▼

A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting the insert includes: (1) a body member having top, bottom, front and rear outer surfaces, (2) top and bottom fluidic circuits located, respectively, at leas

A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting the insert includes: (1) a body member having top, bottom, front and rear outer surfaces, (2) top and bottom fluidic circuits located, respectively, at least partially within the member's top and bottom surfaces, wherein each of these circuits has at least one power nozzle, an interaction chamber, and an outlet whose exit lies within the member front surface, (3) the bottom fluidic circuit having a portion of its surface area located upstream of the power nozzle and adapted so that it can mate with a fluid inlet tube that supplies fluid to the insert, and (4) an inter-circuit flow passage that allows fluid to flow from the bottom fluid circuit to the top fluid circuit, the bottom end of this passage located such that it is downstream of the point where the inlet tube mates with the bottom circuit and upstream of the bottom circuit's power nozzle, with the top end of this passage located upstream of the top circuit's power nozzle.

대표청구항 ▼

We claim: 1. A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting said insert, said insert comprising: a member having top, bottom, front and rear outer surfaces, a top fluidic circuit located at least parti

We claim: 1. A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting said insert, said insert comprising: a member having top, bottom, front and rear outer surfaces, a top fluidic circuit located at least partially within said top surface, a bottom fluidic circuit located at least partially within said bottom surface, wherein each of said fluidic circuits having at least one power nozzle, an interaction chamber downstream of said nozzle, an outlet downstream from said interaction chamber with the exit from said outlet lying within said member front surface, said bottom circuit having a portion of its surface area located upstream of said power nozzle and adapted so that it can mate with a fluid inlet tube that supplies fluid to said insert, and an inter-circuit flow passage that allows fluid to flow from the bottom fluidic circuit to the top fluidic circuit, the bottom end of said passage located such that the bottom end is downstream of said point where said inlet tube mates with said bottom circuit and upstream of said bottom circuit power nozzle, the top end of said passage located upstream of said top circuit power nozzle. 2. A fluidic insert as recited in claim 1, further comprising: a linking passage that connects the interaction chambers of said circuits. 3. A fluidic insert as recited in claim 1, further comprising: an alignment means located in the top surface of said insert. 4. A fluidic insert as recited in claim 3, wherein the distance between the bottom end of said inter-circuit passage and said point where said inlet tube mates with said bottom circuit is adapted so as to accommodate the location of said alignment means in said top surface. 5. A fluidic insert as recited in claim 1, wherein: said insert is molded from plastic, and said distance between the bottom end of said inter-circuit passage and said point where said inlet tube mates with said bottom circuit is adapted so as to accommodate the location of contact points with the ejector pins that are used in molding said insert. 6. A fluidic insert as recited in claim 4, wherein: said insert is molded from plastic, and said distance between the bottom end of said inter-circuit passage and said point where said inlet tube mates with said bottom circuit is further adapted so as to accommodate the location of contact points with the ejector pins that are used in molding said insert. 7. A fluidic insert as recited in claim 1, wherein: said bottom fluidic circuit having a filter means located between said point where said inlet tube mates with said bottom circuit and said bottom circuit power nozzle. 8. A fluidic insert as recited in claim 5, wherein the plastic from which said insert is molded from a polycarbonate-PBT. 9. A fluidic device that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting said device, said device comprising: a fluidic insert, a housing having a cavity configured to receive said fluidic insert, said cavity having surfaces adapted to mate with a portion of the outer surfaces of said insert so as to prevent fluid leakage from such mated surfaces, said housing having a housing tube that allows fluid to flow from an inlet at the lower end of said tube and into said cavity, wherein said insert having: a member having top, bottom, front and rear outer surfaces, a top fluidic circuit located at least partially within said top surface, a bottom fluidic circuit located at least partially within said bottom surface, wherein each of said fluidic circuits having at least one power nozzle, an interaction chamber downstream of said nozzle, an outlet downstream from said interaction chamber with the exit from said outlet lying within said member front surface, said bottom circuit having a portion of its surface area located upstream of said power nozzle and adapted so that it can mate with the top end of said housing tube that supplies fluid to said insert, and an inter-circuit flow passage that allows fluid to flow from the bottom fluid circuit to the top fluid circuit, the bottom end of said passage located such that the bottom end is downstream of said point where said top end of said housing tube mates with said bottom fluidic circuit and upstream of said bottom circuit power nozzle, the top end of said passage located upstream of said top circuit power nozzle. 10. A fluidic device as recited in claim 9, further comprising: a check valve that is located within said housing tube. 11. A fluidic device as recited in claim 10, further comprising: an elbow that connects to the lower end of said housing tube. 12. A fluidic device as recited in claim 9, further comprising: a linking passage that connects the interaction chambers of said circuits. 13. A fluidic device as recited in claim 9, further comprising: an alignment means located in the top surface of said insert. 14. A fluidic device as recited in claim 12, wherein the distance between the bottom end of said inter-circuit passage and said point where said inlet tube mates with said bottom circuit is adapted so as to accommodate the location of said alignment means in said top surface. 15. A fluidic device as recited in claim 9, wherein: said insert is molded from plastic, and said distance between the bottom end of said inter-circuit passage and said point where said inlet tube mates with said bottom circuit is adapted so as to accommodate the location of contact points with the ejector pins that are used in molding said insert. 16. A fluidic device as recited in claim 14, wherein: said insert is molded from plastic, and said distance between the bottom end of said inter-circuit passage and said point where said inlet tube mates with said bottom circuit is further adapted so as to accommodate the location of contact points with the ejector pins that are used in molding said insert. 17. A fluidic device as recited in claim 9, wherein: said bottom fluidic circuit having a filter means located between said point where said inlet tube mates with said bottom circuit and said bottom circuit power nozzle. 18. A fluidic insert as recited in claim 13, wherein the plastic from which said insert is molded from a polycarbonate-PBT plastic. 19. A flow insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting said insert, said insert comprising: a body member having top, bottom, front and rear outer surfaces, a first flow circuit located within said member, a second flow circuit located within said member, wherein each of said flow circuits having a nozzle, an outlet downstream from said nozzle with the exit from said outlet lying within said member front surface, said second circuit having an inlet portion located upstream of said nozzle and adapted so that it can mate with a fluid inlet tube that supplies fluid to said insert, and an inter-circuit flow passage that allows fluid to flow from the second flow circuit to the first flow circuit, the bottom end of said passage located such that the bottom end is downstream of said point where said inlet tube mates with said second circuit and upstream of said second circuit nozzle, the top end of said passage located upstream of said first circuit nozzle. 20. A flow insert as recited in claim 19, wherein said flow circuits are chosen from the group consisting of steady state flow circuits and fluidic circuits. 21. A flow insert as recited in claim 19, wherein said first flow circuit located at least partially within said member top surface, and said second flow circuit located at least partially within said member bottom surface. 22. A flow insert as recited in claim 19, further comprising: an alignment means located in the top surface of said insert. 23. A flow insert as recited in claim 21, wherein: said first flow circuit lies proximate said top surface of said body member and said second flow circuit lies proximate said bottom surface of said body member, and said flow circuits further having a first interaction chamber located between said nozzle and outlet. 24. A flow insert as recited in claim 23, wherein: said first flow circuit being configured so as to yield a spray having a specified horizontal fan angle, and said second flow circuit being configured so as to yield a spray having a horizontal fan angle that is larger than that of said specified horizontal fan angle of said first flow circuit. 25. A flow insert as recited in claim 23, wherein: said first flow circuit being configured so as to yield a spray having a specified horizontal fan angle, and said second flow circuit being configured so as to yield a spray having a horizontal fan angle that is smaller than that of said specified horizontal fan angle of said first flow circuit. 26. A flow insert as recited in claim 23, wherein: said flow circuits being configured so that the centerlines of said first and second flow circuits angle away from each other a specified amount so as to give a prescribed vertical included angle between the fluid sprays that flow from said circuits. 27. A flow insert as recited in claim 23, wherein: the floor of said first flow circuit being configured proximate said outlet to have a reverse taper, and the roof of said second flow circuit being configured proximate said outlet to have a reverse taper. 28. A flow insert as recited in claim 23, further comprising: a top cover plate configured to cover and adjoin the roof of said first flow circuit, said plate having a taper in its thickness proximate said plate's downstream end. 29. A flow insert as recited in claim 23, further comprising: a bottom cover plate configured to cover and adjoin the floor of said second flow circuit, said plate having a taper in its thickness proximate said plate's downstream end. 30. A flow insert as recited in claim 23, further comprising: a top cover plate configured to cover and adjoin the roof of said first flow circuit, said plate having a taper in its thickness proximate said plate's downstream end, and a bottom cover plate configured to cover and adjoin the floor of said second flow circuit, said plate having a taper in its thickness proximate said plate's downstream end. 31. A flow insert as recited in claim 23, wherein: said flow circuits further having a second interaction chamber with an island, said second chamber being located downstream of said first interaction chamber and before said outlet. 32. A flow insert as recited in claim 23, wherein: the roof portion of said first flow circuit outlet having a notch of specified dimension. 33. A flow insert as recited in claim 23, wherein: the floor portion of said second flow circuit outlet having a notch of specified dimension. 34. A flow insert as recited in claim 23, wherein: the roof portion of said first flow circuit outlet having a notch of specified dimension, and the floor portion of said second flow circuit outlet having a notch of specified dimension. 35. A flow insert as recited in claim 23, wherein: said first flow circuit being configured so that the fluid spray that exits from it has a prescribed yaw angle with respect to the centerline of said circuit. 36. A flow insert as recited in claim 23, wherein: said second flow circuit being configured so that the fluid spray that exits from it has a prescribed yaw angle with respect to the centerline of said circuit. 37. A flow insert as recited in claim 23, further comprising: a linking passage that connects said first interaction chambers of said circuits. 38. A flow insert that receives fluid under pressure and generates a specified spatial distribution of the fluid exiting said insert, said insert comprising: a body member having top, bottom, front and rear outer surfaces, at least two fluid flow circuits located within said member, each said circuit configured so that said circuit is connected to said pressurized fluid source, wherein each of said flow circuits having a nozzle, an outlet downstream from said nozzle with the exit from said outlet lying within said member front surface, wherein each of said flow circuits are chosen from the group consisting of steady state flow circuits and fluidic circuits, said first of at least two flow circuits being configured so as to yield a spray having a specified horizontal fan angle, and said second of at least two flow circuits being configured so as to yield a spray having a horizontal fan angle that is larger than that of said specified horizontal fan angle of said first flow circuit. 39. A flow insert that receives fluid under pressure and generates a specified spatial distribution of the fluid exiting said insert, said insert comprising: a body member having top, bottom, front and rear outer surfaces, at least two fluid flow circuits located within said member, each said circuit configured so that said circuit is connected to said pressurized fluid source, wherein each of said flow circuits having a nozzle, an outlet downstream from said nozzle with the exit from said outlet lying within said member front surface, wherein each of said flow circuits are chosen from the group consisting of steady state flow circuits and fluidic circuits, said first of at least two flow circuits being configured so as to yield a spray having a specified horizontal fan angle, and said second of at least two flow circuits being configured so as to yield a spray having a horizontal fan angle that is smaller than that of said specified horizontal fan angle of said first flow circuit. 40. A flow insert as recited in claim 38, wherein: said first and second flow circuits being configured so that the centerlines of said flow circuits angle away from each other a specified amount so as to give a prescribed vertical included angle between the fluid sprays that flow from said circuits. 41. A flow insert as recited in claim 39, wherein: said first and second flow circuits being configured so that the centerlines of said flow circuits angle away from each other a specified amount so as to give a prescribed vertical included angle between the fluid sprays that flow from said circuits. 42. A flow insert as recited in claim 38, wherein: at least one of said flow circuits being configured so that the fluid spray that exits from it has a prescribed yaw angle with respect to the centerline of said circuit. 43. A flow insert as recited in claim 39, wherein: at least one of said flow circuits being configured so that the fluid spray that exits from it has a prescribed yaw angle with respect to the centerline of said circuit. 44. A flow insert as recited in claim 40, wherein: at least one of said flow circuits being configured so that the fluid spray that exits from it has a prescribed yaw angle with respect to the centerline of said circuit. 45. A flow insert as recited in claim 41, wherein: at least one of said flow circuits being configured so that the fluid spray that exits from it has a prescribed yaw angle with respect to the centerline of said circuit.