Particular aspects provide novel atomizers for generating particles over a broad range of MMAD size distributions, the eliminating the requirement for an impaction baffle in generating the desired particle sizes. In particular aspects, the atomization means communicates with a remote particle filter
Particular aspects provide novel atomizers for generating particles over a broad range of MMAD size distributions, the eliminating the requirement for an impaction baffle in generating the desired particle sizes. In particular aspects, the atomization means communicates with a remote particle filter member configured and positioned to provide for particle size filtering. In additional aspects, the atomization means communicates with a particle dispersion chamber suitable to impart a desired particle flow pattern to particles within and exiting the dispersion chamber. In further aspects, the atomization means communicates with a nasal, ocular, oral or ‘vicinity’ adapter. The novel devices provide for targeted (e.g., nasal, ocular, oral, local vicinity), systemic, and/or topical delivery of an atomized liquid (e.g., via the nasal cavity, olfactory region, and mouth). Further exemplary aspects relate to aerosolization and delivery of perfume, fragrance, essential oil or cosmeceutical agents and the like.
대표청구항▼
1. An aerosol generating device for delivering an atomized or aerosolized liquid, comprising: a liquid feed tube having a liquid feed channel (15) with an inlet aperture, a liquid feed channel exit orifice (15), an end-wall face (23), and a sidewall, wherein the end-wall face is between the liquid f
1. An aerosol generating device for delivering an atomized or aerosolized liquid, comprising: a liquid feed tube having a liquid feed channel (15) with an inlet aperture, a liquid feed channel exit orifice (15), an end-wall face (23), and a sidewall, wherein the end-wall face is between the liquid feed channel exit orifice and a perimeter of the liquid feed tube and is normal or substantially normal to a diverting portion of the sidewall of the liquid feed tube; anda compressed fluid feed channel having a compressed fluid exit orifice (7), the compressed fluid exit orifice being spaced from the diverting portion of the sidewall, the compressed fluid exit orifice being configured to direct a stream of compressed fluid toward the diverting portion of the sidewall, the diverting portion of the sidewall being configured to disrupt a portion of the stream of compressed fluid, the disrupted portion of the stream of compressed fluid being configured to atomize -or aerosolize the liquid from the liquid feed channel exit orifice. 2. The device of claim 1, comprising: a reservoir configured to hold a liquid;a liquid supply member comprising the liquid feed tube having the sidewall with the diverting portion and comprising the liquid feed channel, the liquid feed channel inlet aperture in communication with the reservoir and the liquid feed channel exit orifice, the feed channel being configured to draw liquid from the reservoir and transport it to the exit aperture for atomization or aerosolization therefrom by a compressed fluid; anda compressed fluid supply member comprising the compressed fluid feed channel having the compressed fluid exit orifice, the diverting portion being located between the exit orifice of the liquid feed channel and the exit orifice of the compressed fluid feed channel, the compressed fluid feed channel being configured to receive a compressed fluid and conduct a portion of the compressed fluid through the exit orifice and into engagement with the diverting portion of the liquid supply member, the portion of the compressed fluid engaging the diverting portion being diverted by the diverting portion before atomizing or aerosolizing the liquid from the exit aperture of the feed channel. 3. The device of claim 1, wherein the compressed fluid channel and the diverting portion are configured such that a second portion of the compressed fluid conducted through the compressed fluid exit orifice does not engage the diverting portion of the liquid supply member. 4. The device of claim 1, wherein the diverting portion has a surface, the portion of the compressed fluid engaging the diverting portion engages the surface of the diverting portion, and the surface is configured to divert the portion of the compressed fluid engaging it non-uniformly. 5. The device of claim 1, wherein the liquid feed tube comprises a tube section, the feed channel comprises a first portion disposed inside the tube section, the exit aperture of the feed channel is formed in the tube section, and the tube section comprises an outside surface, and the diverting portion comprises a portion of the outside surface of the tube section located between the exit orifice of the feed channel and the exit orifice of the compressed fluid channel. 6. The device of claim 1, wherein the portion of the compressed fluid conducted through the compressed fluid exit orifice exits the orifice along a projected longitudinal axis “F,” the liquid feed channel has a projected longitudinal axis “L,” and the projected longitudinal axis “F” intersects the projected longitudinal axis “L”. 7. The device of claim 1, wherein the liquid feed channel comprises the inlet aperture, the liquid feed channel exit orifice, and an end-wall face perimeter having an outside diameter disposed about the liquid feed channel exit orifice, the liquid feed channel defining a projected axis L, wherein the end-wall face liquid feed channel exit orifice is separated by a distance of at least H from the compressed fluid channel exit orifice, H being measured along a projected longitudinal axis F that is normal to a plane P defined by the compressed fluid channel exit orifice,H is equal to or greater than ¼ times an inner diameter D1 of the compressed fluid channel adjacent the compressed fluid channel exit orifice,the projected longitudinal axis L intersects the projected longitudinal axis F at an angle, defining an intersection plane I, and whereinat the distance H along projected longitudinal axis F, a plane I-intersecting portion of the perimeter of the end-wall face is positioned at a distance O in a normal direction from the projected longitudinal axis F, the distance O being equal to or less than 2 times the inner diameter D1 of the compressed fluid channel. 8. The device of claim 1, comprising: a reservoir configured to hold the liquid;a liquid supply member comprising the liquid feed channel comprising: a first portion with a first diameter and the liquid feed channel exit orifice; anda second portion with a second diameter and the liquid feed channel inlet aperture in communication with the reservoir, the first portion diameter being smaller than the second portion diameter, the feed channel being configured to draw the liquid from the reservoir into the inlet aperture of the second portion and transport it to the exit orifice of the first portion for atomization or aerosolization therefrom by a compressed fluid; anda compressed fluid supply member comprising the compressed fluid channel and the compressed fluid channel exit orifice, configured to direct a compressed fluid flow passed the exit orifice of the first portion of the feed channel to provide for atomizing or aerosolizing the liquid therefrom. 9. The device of claim 1, comprising: a housing having a wall defining an atomization or aerosolization chamber in which the liquid is atomizable or aerosolizable, and comprising holding means suitable for holding the liquid to be atomized; andatomization or aerosolization means comprising the compressed fluid feed channel having a length and inner diameter, and the compressed fluid exit orifice at a first end thereof in fluid communication with the atomization chamber and defining the compressed fluid exit orifice plane P, the compressed fluid feed channel at a second end in fluid communication with a compressed fluid source and defining a protectable compressed fluid feed channel axis F, the atomization or aerosolization means further comprising the liquid feed channel having a length, inner diameter and channel wall, and at a first liquid feed channel end having a liquid feed channel end-wall face perimeter having an outside diameter disposed about the liquid feed channel orifice in fluid communication with the atomization chamber, the liquid feed channel at a second end in communication with the liquid holding means, the liquid feed channel defining a projectable longitudinal liquid feed channel axis L, whereinthe channel end-wall face and the liquid feed channel orifice are separated by a distance of at least H from the orifice plane P, H being measured along the projected longitudinal axis F and H being equal to or greater than ¼ times an inner diameter D1 of the compressed fluid feed channel, whereinthe projected longitudinal axis L intersects the projected longitudinal axis F at an angle, defining an intersection plane I, and whereinat the distance H along projected longitudinal axis F, a plane I-intersecting portion of the perimeter of the liquid feed channel end-wall face is positioned at a distance O in a normal direction from the projected longitudinal axis F, the distance O being equal to or less than 2 times the inner diameter D1 of the compressed fluid feed channel. 10. The device of claim 9, further comprising a secondary liquid feed channel having a length and an inner diameter D4, and communicating between the second end of the primary liquid feed channel and the liquid holding means, wherein the inner diameter D4 is larger than the inner diameter D2 of the primary liquid feed channel. 11. The device of claim 9, wherein the distance O is such that there is overlap of projected longitudinal axis F with the plane I-intersecting portion of the perimeter of the liquid feed channel end-wall face, wherein overlap is defined as being present if the projected longitudinal axis F intersects the liquid feed channel end-wall face or the liquid feed channel orifice thereof. 12. The device of claim 9, wherein the atomized or aerosolized liquid comprises particles, and the device further comprises a filtering member configured aerodynamically to filter particles from the atomized or aerosolized liquid having a size greater than a predetermined maximum size. 13. The device of claim 12, wherein the particle filter member is in fluid communication with the particle atomization or aerosolization means, the particle filter member having a surface contour and positioned at a distance of at least J along the projected longitudinal axis F from the primary orifice plane P to provide an aerodynamic fluid flow around the surface, and wherein the particle filter member is held at the distance J along the projected longitudinal axis F by at least one filter support member communicating with the wall of the atomization or aerosolization chamber, the support member configured to operatively direct liquid accumulating on the filter away from the filter member for return to the liquid holding means. 14. The device of claim 1, further comprising a particle dispersion chamber configured to receive the atomized or aerosolized liquid and impart a predetermined fluid flow pattern thereto, wherein the imparted fluid flow pattern comprises at least one of vortical flow, turbulent flow, and randomized flow. 15. The device of claim 14, wherein the imparted fluid flow pattern is vortical flow. 16. The device of claim 14, wherein the particle dispersion chamber comprises a chamber wall and an input opening and an output opening with an internal channel therebetween, the input opening in fluid communication with the atomization or aerosolization chamber, the dispersion chamber having at least one directed fluid output configured to impart a fluid flow pattern to the atomized or aerosolized particles within and exiting the dispersion chamber output opening. 17. The device of claim 16, additionally comprising: a secondary compressed fluid channel intermediate between the compressed fluid feed channel and a source of compressed fluid; anda particle dispersion chamber feed channel communicating between the secondary compressed fluid channel and the at least one directed fluid outlets and corresponding orifices. 18. The device of claim 1, further comprising a nasal, ocular, oral, or vicinity adapter in communication with the atomization or aerosolization means. 19. The device of claim 1, wherein the liquid for atomization or aerosolization comprises at least one selected from the group consisting of medicaments, small or large molecule pharmaceutical agents, liquids, solutions, suspensions, emulsions, perfumes, fragrances, essential oils, cosmeceutical agents, oils, cosmeceutical agents, moisturizing agents, water, lotions, air fresheners, deionizing agents, aromatherapeutic agents, beverages, and skin treatments. 20. The device of claim 1, wherein the liquid feed tube comprises a liquid feed channel having an internal diameter D2 at the liquid feed channel exit orifice, the compressed fluid feed channel having an internal diameter D1 at the compressed fluid exit orifice, and wherein D2 is equal to or greater than D1. 21. A method for generating and delivering an aerosolized or atomized liquid, comprising: providing a liquid in a liquid feed tube having a liquid feed channel with an inlet aperture a liquid feed channel exit orifice, an end-wall face and a sidewall, wherein the end-wall face is between the liquid feed tube orifice and the perimeter of the liquid feed tube and is normal or substantially normal to a diverting portion of the sidewall of the liquid feed tube; anddirecting a pressurized fluid through a compressed fluid feed channel having a compressed fluid exit orifice, the compressed fluid exit orifice being spaced from the diverting portion of the sidewall, the compressed fluid exit orifice being configured to direct a stream of compressed fluid toward the diverting portion of the sidewall, the diverting portion of the sidewall being configured to disrupt a portion of the stream of compressed fluid, the disrupted portion of the stream of compressed fluid being configured to atomize or aerosolize a liquid from the liquid feed tube exit orifice, wherein generating and delivering an aerosolized or atomized liquid is afforded. 22. The method of claim 21, comprising imparting a vortical flow pattern to the aerosolized or atomized liquid to provide for delivering the aerosolized or atomized liquid having aerosolized or atomized particles in the vortical flow pattern.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (89)
Michell Brian C., Adjustable pressure limiting valve for anesthesia breathing circuit.
Osbakken, Robert S.; Hale, Mary Anne; Leivo, Frederick T.; Munk, James D., Aerosolized anti-infectives, anti-inflammatories, and decongestants for the treatment of sinusitis.
Coleman D. Jackson (223 Maple St. Haworth NJ 07641) Trokel Stephen L. (1192 Park Ave. New York NY 10028), Apparatus for medicinally spraying an eyeball.
Loeffler, Joseph P.; Rapp, David; Briones, Victor; Bitdinger, Ralf; Klimowicz, Michael, Convertible fluid feed system with comformable reservoir and methods.
Weinstein Allan (9205 Pegasus Ct. Potomac MD 20854) Weinstein Robert (62 Commonwealth Ave. Boston MA 02116), Device for delivering aerosol to the nasal membranes and method of use.
Praud Jean-Paul (Sherbrooke CAX) Baron Sophie (Sherbrooke CAX) Geoffroy Mario (Stoke CAX) Rouleau Rachel (Sacr-Coeur de Marie CAX), Device for the simultaneous delivery of beta-2 agonists and oxygen to a patient.
Hutson Clifford L. (4440 J Shadow Hills Cir. Santa Barbara CA 93105) Demangus Robert (1715 N. Pacific Ave. Glendale CA 91202-1108), Eye spray mist dispenser.
Watson Robert L. (201 W. Laurel St. ; Unit 312 Tampa FL 33602) Rayburn Robert L. (P.O. Box 11 North Salt Lake UT 84054), Incentive inhalation spirometer apparatus.
Robertson Paul A. (Chishall GB3) Houzego Peter J. (Oakington GB3) Jensen Borge R. (Brussels BEX) Creeke Murray A. (Saffron Walden GB3) Emerton Neil (Riverside GB3) Hodson Peter D. (Trowell GB3) Baum , Inhaler.
Smith Adrian E. ; Burr John D. ; Etter Jeffery W. ; Axford George S. ; Lyons Shirley W. ; Platz Robert M., Method and apparatus for dispersion of dry powder medicaments.
Johansson Eric T. ; Ritson Carl ; Rubsamen Reid M., Method and apparatus for releasing a controlled amount of aerosol medication over a selectable time interval.
Armer Thomas Alex ; Evans Bryce Burwick ; Mohsen Nahed Mohsen ; Pavkov Richard Matthew ; Sudhalkar Atul M., Methods and apparatus for delivering aerosolized medication.
Ballini Faustino (Via Torino 1-25073 Bovezzo (Prov. of Brescia) ITX) Merlin Marco (Via XXV Aprile 47-25019 Sirmione (Prov. of Brescia) ITX), Micronized spray device.
Laanen Craig (Whitmore Lake MI) Moler Frank W. (Ann Arbor MI), Non-rebreathing collapsible chamber continuous aerosol delivery system with infusion port.
Nowacki Christopher (Arlington Heights IL) Brisson Alfred G. (Kildeer IL) Dela-Cruz Exequiel (Arlington Heights IL), Pediatric asthmatic medication inhaler.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.