A basic air flow device includes a flow passage having opposite ends. The flow passage is divided into a plurality of sequential portions between the ends including an inlet portion extending into the flow passage from an inlet end, an outlet portion disposed at the opposite end of the flow passage
A basic air flow device includes a flow passage having opposite ends. The flow passage is divided into a plurality of sequential portions between the ends including an inlet portion extending into the flow passage from an inlet end, an outlet portion disposed at the opposite end of the flow passage from the inlet portion, and at least one intermediate passage portion between the inlet passage portion and the outlet passage portion. Each of a plurality of divider sets are positioned in a different sequential portion of the passage to divide that passage portion into a predetermined number of sub passages, whereby the flow passage is sequentially divided into an increasing number of sub flow passages progressing from the inlet portion to the outlet portion. A larger device can be assembled using a parallel plurality of the basic devices.
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1. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow, comprising: a) a flow passage having opposite ends, said flow passage being divided into a plurality of connected sequential flow passage portions between the ends, t
1. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow, comprising: a) a flow passage having opposite ends, said flow passage being divided into a plurality of connected sequential flow passage portions between the ends, the sequential flow passage portions including: i) an inlet flow passage portion extending into the flow passage from an inlet end;ii) an outlet flow passage portion disposed at the opposite end of the flow passage from the inlet flow passage portion; andiii) at least one intermediate flow passage passage portion between the inlet flow passage portion and the outlet flow passage portion;each flow passage portion other than the outlet flow passage portion having a next sequential flow passage portion and each flow passage portion other than the inlet flow passage portion having a next preceding flow passage portion;b) a plurality of divider sets, each divider set positioned in a different sequential flow passage portion of the flow passage to divide that flow passage portion into a predetermined number of sub flow passages, the number of sub flow passages in a next sequential flow passage portion being greater than the number of sub flow passages in the next preceding flow passage portion and each sub flow passage in a next sequential flow passage portion being in flow communication with only a single sub flow passage of the next preceding flow passage portion;c) whereby the flow passage is sequentially divided into an increasing number of the sub flow passages progressing from the inlet portion of the flow passage to the outlet portion of the flow passage and at least one of the sub flow passages of each sequential portion of the flow passage beyond the inlet flow passage portion is divided into a plurality of additional smaller sub flow passages in the next sequential flow passage portion of the flow passage. 2. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 1, wherein structure defining the flow passage is substantially cylindrical. 3. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 2, wherein when each sub flow passage from a next preceding flow passage portion is directly divided into connected additional sub flow passages in the next sequential flow passage portion, the sub flow passage from a next preceding flow passage portion is directly divided in half into two smaller connected additional sub flow passages in the next sequential flow passage portion. 4. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 3, wherein the inlet flow passage portion forms a single flow passage therein. 5. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 4, wherein each flow passage portion provides a total flow passage cross sectional area, and wherein the total flow passage cross sectional area of each flow passage portion is approximately equal. 6. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 5, wherein the device forms a spacer structure for an inhaler device for delivery of medication to a patient, wherein the inlet end is adapted to receive the outlet of a medication dispenser, and the outlet end is adapted to communicate with an air inlet of a patient. 7. A device for providing and maintaining laminar flow of fluid and maintaining particle suspension in the fluid during fluid flow according to claim 6, wherein the inlet end of the flow passage, in addition to being adapted to receive the outlet of a medication dispenser, includes an opening to allow atmospheric air flow into the inlet end of the flow passage. 8. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 7, wherein the outlet end is configured to attach to a mouthpiece to communicate with the mouth of a patient. 9. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 1, wherein the inlet end is adapted to receive the outlet of a pressurized metered dose inhaler. 10. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 1, wherein each flow passage portion provides a total flow passage cross sectional area, and wherein the total flow passage cross sectional area of each flow passage portion is approximately equal. 11. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 1, wherein the device forms a spacer structure for an inhaler device for delivery of medication to a patient, wherein the inlet end is adapted to receive the outlet of a medication dispenser, and the outlet end is adapted to communicate with an air inlet of a patient. 12. A device for providing and maintaining laminar flow of fluid and maintaining particle suspension in the fluid during fluid flow according to claim 11, wherein the inlet end of the flow passage, in addition to being adapted to receive the outlet of a medication dispenser, includes an opening to allow atmospheric air flow into the inlet end of the flow passage. 13. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow, comprising: structure forming a flow passage having an inlet end and an outlet end; anda plurality of devices according to claim 1 clustered in parallel within the flow passage;whereby fluid flowing through the flow passage is divided into portions with different portions of the fluid flowing in parallel through respective different devices of the clustered plurality of devices according to claim 1. 14. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 13, wherein the plurality of devices according to claim 1 substantially fill a cross section of the flow passage whereby substantially all of the fluid flowing through the flow passage flows through a respective one of the different devices of the clustered plurality of devices according to claim 1. 15. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 14, wherein the flow passage is substantially cylindrical. 16. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 14, wherein the A plurality of devices according to claim 1 include devices of different lengths. 17. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 14, wherein the A plurality of devices according to claim 1 include such devices having different diameters. 18. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow according to claim 13, wherein the A plurality of devices according to claim 1 do not fill a cross section of the flow passage. 19. A device for providing and maintaining laminar flow of a fluid and maintaining particle suspension in the fluid during fluid flow, comprising: a) a flow passage having opposite ends, said flow passage being divided into a plurality of connected sequential flow passage portions between the ends, the sequential flow passage portions including: i) an inlet flow passage portion extending into the flow passage from an inlet end;ii) an outlet flow passage portion disposed at the opposite end of the flow passage from the inlet flow passage portion; andiii) at least one intermediate flow passage portion between the inlet flow passage portion and the outlet flow passage portion;each flow passage portion other than the outlet flow passage portion having a next sequential flow passage portion and each flow passage portion other than the inlet flow passage portion having a next preceding flow passage portion;b) a plurality of divider sets, each divider set positioned in a different sequential flow passage portion of the flow passage to divide that flow passage portion into a predetermined number of sub flow passages, the number of sub flow passages in a next sequential flow passage portion being greater than the number of sub flow passages in the next preceding flow passage portion and each sub flow passage in a next sequential flow passage portion being in flow communication with only a single sub flow passage of the next preceding flow passage portion;c) whereby a sub flow passage from a next preceding flow passage portion is directly divided into connected additional sub flow passages in the next sequential flow passage portion so that the flow passage is sequentially divided into an increasing number of sub flow passages in each flow passage portion progressing from the inlet end of the passage to the outlet end of the passage.
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이 특허에 인용된 특허 (26)
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Hall Kenneth R. (College Station TX) Morrison Gerald L. (College Station TX) Holste James C. (Bryan TX) ..AP: Texas A & M University System (College Station TX 02), Slotted orifice flowmeter.
Schuler, Carlos; Paboojian, Steve; Tuttle, Derrick J.; Smith, Adrian E.; Rasmussen, Dennis R.; Bakshi, Aneesh; Clark, Andrew; Ward, Brian R. S.; Alston, Jr., William W.; Nason, Kevin S., Systems and methods for aerosolizing pharmaceutical formulations.
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