An aerosol system for dispensing liquid material, comprising a container assembly and an actuator assembly comprising an outlet member defining an outlet opening, a collar member, an actuator member, and a selector member. The actuator member supports the collar member and the outlet member such tha
An aerosol system for dispensing liquid material, comprising a container assembly and an actuator assembly comprising an outlet member defining an outlet opening, a collar member, an actuator member, and a selector member. The actuator member supports the collar member and the outlet member such that movement of the collar member relative to the actuator member causes the collar member to deform the outlet member. Movement of the selector member relative to the collar member moves the collar member relative to the actuator member. Deformation of the outlet member alters a cross-sectional area of the outlet opening. When the actuator assembly is in a first position, the liquid material is prevented from flowing out of the container. When the actuator assembly is in a second position, the liquid material is allowed to flow out of the container assembly through the outlet opening.
대표청구항▼
1. An aerosol system for dispensing liquid material, comprising: a container assembly; andan actuator assembly comprising an outlet member defining an outlet opening;a collar member;an actuator member, where the actuator member is supported by the container assembly in first and second positions, an
1. An aerosol system for dispensing liquid material, comprising: a container assembly; andan actuator assembly comprising an outlet member defining an outlet opening;a collar member;an actuator member, where the actuator member is supported by the container assembly in first and second positions, andsupports the collar member and the outlet member such that movement of the collar member relative to the actuator member causes the collar member to deform the outlet member;a selector member, where movement of the selector member relative to the collar member causes movement of the collar member relative to the actuator member; whereindeformation of the outlet member alters a cross-sectional area of the outlet opening;when the actuator assembly is in the first position, the liquid material is prevented from flowing out of the container; andwhen the actuator assembly is in the second position, the liquid material is allowed to flow out of the container assembly through the outlet opening. 2. An aerosol system as recited in claim 1, in which the actuator member is adapted to engage the container assembly such that displacement of the actuator member causes fluid to flow through the outlet opening. 3. An aerosol system as recited in claim 1, in which the actuator assembly further comprises a base member, where the base member is adapted to engage the container assembly and the selector member. 4. An aerosol system as recited in claim 1, further comprising a base member, in which: the base member defines an alignment structure;the alignment structure engages the selector member to allow rotation of the selector member relative to the collar member. 5. An aerosol system as recited in claim 4, in which; the alignment structure is defined by a groove formed in the base structure; andthe selector member defines a rail; whereinthe groove is sized and dimensioned to receive the rail as the selector member rotates relative to the collar member. 6. An aerosol system as recited in claim 1, in which: the actuator member defines at least one finger portion that engages the outlet member; andmovement of the collar member relative to the actuator member deforms the at least one finger portion to deform the outlet member. 7. An aerosol system as recited in claim 1, in which: the actuator member defines a plurality of finger portions, where the plurality of finger portions support the outlet member; andmovement of the collar member relative to the actuator member deforms the finger portions to deform the outlet member. 8. An aerosol system as recited in claim 1, in which: the selector member defines a selector threaded portion;the collar member defines a collar threaded portion; andthe selector threaded portion engages the collar threaded portion such that rotation of the selector member displaces the collar member relative to the actuator member. 9. An aerosol system as recited in claim 1, in which: the selector member comprises a flange portion defining a plurality of ratchet notches;the collar member defines a lock projection; andthe lock projection engages one of the plurality of ratchet notches to release-ably secure the selector member in a desired angular orientation relative to the collar member. 10. An aerosol system as recited in claim 1, in which: the selector member comprises a flange portion defining a plurality of ratchet notches;the collar member defines a lock projection;the base portion defines an alignment structure;the flange portion engages the alignment structure to allow the selector member to rotate relative to the collar member; andthe lock projection engages one of the ratchet notches to release-ably secure the selector member in a desired angular position relative to the collar member. 11. A method of dispensing liquid material, comprising the steps of: providing a container assembly;providing an outlet member defining an outlet opening;providing a collar member;providing an actuator member;providing a selector member;supporting the collar member and the outlet member on the actuator member;supporting the selector member relative to the collar member such that movement of the selector member relative to the collar member causes movement of the collar member relative to the actuator member;supporting the actuator member relative to the container assembly;moving the selector member relative to the collar member to move the collar member relative to the actuator member to cause the collar member to deform the outlet member and thereby alter a cross-sectional area of the outlet opening; anddisplacing the actuator member to allow the liquid material to flow out of the container assembly through the outlet opening. 12. A method as recited in claim 11, in which the step of supporting the actuator member relative to the container assembly comprises the step of engaging the actuator member with the container assembly such that the actuator is movable relative to the container assembly. 13. A method as recited in claim 11, further comprising the step of arranging a base member to engage the container assembly and the selector member. 14. A method as recited in claim 13, further comprising the steps of: defining an alignment structure on the base member;engaging the alignment structure with the selector member such that the selector member may rotate relative to the collar member. 15. A method as recited in claim 14, in which: the step of providing the selector member comprises the step of forming a rail on the selector member; andthe step of defining an alignment structure on the base member comprises the step of forming a groove in the base structure such that the groove is sized and dimensioned to receive the rail as the selector member rotates relative to the collar member. 16. A method as recited in claim 11, in which: the step of providing the actuator member further comprises the step of forming at least one finger portion, where the at least one finger portion engages the outlet member; andthe step of moving of the collar member relative to the actuator member comprises the step of deforming the at least one finger portion to deform the outlet member. 17. A method as recited in claim 11, in which: the step of providing the actuator member comprises the step of forming a plurality of finger portions, where the plurality of finger portions support the outlet member; andthe step of moving of the collar member relative to the actuator member comprises the step of deforming the finger portions to deform the outlet member. 18. A method as recited in claim 11, in which: the step of providing the selector member comprises the step of forming a selector threaded portion;the step of providing the collar member comprises the step of forming a collar threaded portion; andengaging the selector threaded portion with the collar threaded portion such that rotation of the selector member displaces the collar member relative to the actuator member. 19. A method as recited in claim 11, in which: the step of providing the selector member comprises the step of forming a flange portion defining a plurality of ratchet notches;the step of providing the collar member comprises the step of forming a lock projection; further comprising the step ofengaging the lock projection with one of the plurality of ratchet notches to release-ably secure the selector member in a desired angular orientation relative to the collar member. 20. A method as recited in claim 11, in which: the step of providing the selector member comprises the step of forming a flange portion defining a plurality of ratchet notches;the step of providing the collar member comprises the step of forming a lock projection; further comprising the steps ofproviding base portion defining an alignment structure;engaging the flange portion with the alignment structure to allow the selector member to rotate relative to the collar member; andengaging the lock projection with one of the ratchet notches to release-ably secure the selector member in a desired angular position relative to the collar member.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (254)
Mahoney Wayne Scott ; Willett Peggy Sperl, Accelerators useful for energy polymerizable compositions.
Norman Clark GB; Andrew Claughton GB; Karen Michelle Dickinson AU; Adalberto Geier IT; Nigel Laurence Jackson GB; Gunter Walter Kolanus DE; Richard Paul McNabb GB; Ian Stuart Midgley GB, Actuator mechanism.
Visceglia Marco P. (6118 Liebig Ave. Bronx NY 10471) Wisdom Trevor (41 University Place Glen Head NY 11545), Aerosol container having sealed propellant means.
Peterson Gerald E. (St. Paul MN) Polk Gary C. (Eden Prairie MN) Gunderson Richard W. (Elk River MN) Walsh Warren J. (Waverly MN) Kille Ewald (Friedrichshafen DEX), Air aspirated cooling for spray guns.
Werding Winfried J. (77 ; avenue du General Guisan CH-1009 Pully CHX), Apparatus to provide for the storage and the controlled delivery of products that are under pressure.
Oxman Joel D. (Minneapolis MN) Konings Mark S. (Minneapolis MN) Tiers George V. D. (St. Paul MN) Vogel Kim M. (Lake Elmo MN) Vogel Dennis E. (Lake Elmo MN), Cure-indicating molding and coating composition.
Lasserre Pierre-Andre,FRX ; Sanchez Marcel,FRX, Device for mounting a valve on a container, and dispenser containing a product under pressure fitted with such a device.
Youel Jean-Pierre (Colombes FRX), Device for the pressurized dispensing of a product, especially a foaming product, and processes for filling a container.
Samuelson Bruce E. (West Lakeland Township ; Washington County MN) Ahlberg Carl S. (Minneapolis MN) Vosberg Daryl E. (Cottage Grove MN), Dispensing assembly with nozzle storage.
Nafziger John L. (Lake Jackson TX) Lowenkron Steven B. (Houston TX) Koehler Charles E. (Baytown TX) Stevens Bruce N. (Longview TX), Flexible polyurethane rebond foam having improved tear resistance and method for the preparation thereof.
Barth Bruce P. (Bridgewater NJ) Johnson Robert N. (Basking Ridge NJ) Mayer Walter P. (Lebanon NJ), Frothable polyurethane composition and a cellular foam produced therefrom suitable for use in joints between wallboards.
Nikkel Robert E. (4101 Mount Vernon Ct. Fort Collins CO 80525) Guidi Paul (15500 W. Telegraph D-30 Santa Paula CA 93060) Rains John K. (7074 El Malabar Ventura CA 93003), Liquid spray gun accessories.
Daniel Jean-Claude (Fontenay/Sous/Bois FRX) Schuppiser Jean-Luc (Claye-Souilly FRX) Tricot ; deceased Marc (late of Andilly FRX by Nicole Tricot ; heir), Magnetic polymer latex and preparation process.
Stern Donald J. (Bellingham WA) Heaton Jeff S. (Bellingham WA) Tryon James A. (Seattle WA) Bartholmey Brett A. (Bellingham WA), Manually adjustable spray applicator.
Stern Donald J. (Bellingham WA) Heaton Jeff S. (Bellingham WA) Tryon James A. (Seattle WA) Bartholmey Brett A. (Bellingham WA), Manually adjustable spray applicator.
Stern Donald J. (Bellingham WA) Heaton Jeff S. (Bellingham WA) Tryon James A. (Seattle WA) Bartholmey Brett A. (Bellingham WA), Manually adjustable spray applicator.
Blake Robert R.,MXX, Method for propellant filling an aerosol container with a large aerosol actuator button on the valve during filling and actuator button therefor.
Sperry Charles R. (Springfield VT) Raff Allan M. (Walnut Creek CA), Method for the cleansing of wounds using an aerosol container having liquid wound cleansing solution.
Cooper Troy L. (Canal Fulton OH), Novel catalyst for curing polyester resins and method for determining the degree of cure in polyester and epoxy resin sy.
Fracalossi Roland N. (Baltimore MD) Greenhouse Walter V. V. (Baltimore MD) Buchanan Michael S. (Baltimore MD), Polyurethane foam-filled foams and method of producing same.
Buchanan Michael S. (Baltimore MD) Davis Gregory B. (Towson MD) Greenhouse Walter V. V. (Baltimore MD), Polyurethane foams containing organofunctional silanes.
Jarre Wolfgang (Ludwigshafen DEX) Mueller Gerhard (Munich DEX) Zipp Otmar (Osnabrueck DEX) Ropte Eckhard (Ludwigshafen DEX), Process for manufacture of flexible polyurethane foams with cyanic acid derivatives.
Davies Robert J. (Ontario CAX) Gleeson Patrick J. (Ontario CAX) Moran Michael J. (Ontario CAX), Product bag for dispensing and method for producing the same.
Young Lesley (Belton MO) Rhodes Brian D. (Olathe KS) Acton Gary (Kansas City KS) Oglesby Michael L. (Lee\s Summit MO) Fureigh Michael L. (Shawnee Mission KS), Spray machine for giving a texture to drywall.
Stern Donald J. (2078 Dellesta Dr. Bellingham WA 98226) Tryon James A. (420 Smith St. Seattle WA 98109), Spray texturing apparatus and method with dispensing tube.
Rokitenetz ; deceased Walter (late of Granada Hills CA by Brian R. Rokitenetz ; executor) Stansbury ; Jr. Benjamin H. (Beverly Hills CA), Spray valve with constant actuating force.
Austin ; Jr. George K. (12755 NE. Parrett Mountain Rd. Newberg OR 97132) Johannes Sandor (2189 Hidden Springs Ct. West Linn OR 97068), Valve assembly with flow control.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.