The present invention provides an airbelt inflator (10) designed primarily for supplying and directing gas from the combustion of gas generant materials into a vehicle airbelt. Inflator (10) includes a substantially cylindrical inflator body (12), having a first end (11) and a second end (13). A un
The present invention provides an airbelt inflator (10) designed primarily for supplying and directing gas from the combustion of gas generant materials into a vehicle airbelt. Inflator (10) includes a substantially cylindrical inflator body (12), having a first end (11) and a second end (13). A unique booster cup (22) is positioned within inflator body (12), and is preferably press fit with initiator body (15), suspending cup (22) within inflator body (12). Cup (22) facilitates consistent burn of the main propellant, imparting repeatable bag performance. A cylindrical mesh filter (38) is positioned in inflator body (12). A nozzle (36) is preferably positioned adjacent a disc (30). A variety of different nozzles giving inflator (10) varying gas output characteristics can be utilized with inflator (10), for example thrusting inflators or thrust-neutral inflators, depending on the operating requirements of the airbelt system. Booster cup (22) is sized such that it extends into inflator body (12), and abuts filter (38), thereby serving as a stand off or locator for filter (38), and providing a relatively snug packing arrangement for propellant tablets (28).
대표청구항▼
The invention claimed is: 1. An inflator comprising: an inflator body; a substantially cylindrical booster cup extending in said body, said booster cup having an outer peripheral wall and an end surface extending radially inwardly from said wall; a plurality of apertures formed in said outer periph
The invention claimed is: 1. An inflator comprising: an inflator body; a substantially cylindrical booster cup extending in said body, said booster cup having an outer peripheral wall and an end surface extending radially inwardly from said wall; a plurality of apertures formed in said outer peripheral wall; a first propellant charge positioned in said booster cup; a second propellant charge positioned in said inflator body; an initiator assembly operable to activate said first propellant charge, wherein a combustion thereof initiates a combustion of said second propellant charge and ejection of an inflation gas from said inflator body; a filter abutting said booster cup end surface; a perforated disc abutting said filters, the filter comprising a wire mesh material extending continuously from the booster cup end surface to the perforated disc; and a nozzle positioned at an end of said inflator and abutting said perforated disc for supplying an inflation gas. 2. The inflator of claim 1 wherein said inflator body comprises an inner peripheral wall separated from said outer peripheral wall by a substantially annular space; and said second propellant charge is positioned in said space. 3. The inflator of claim 2 wherein said second propellant charge is positioned substantially adjacent said outer peripheral wall. 4. The inflator of claim 3 wherein said second propellant charge comprises a plurality of propellant tablets. 5. The inflator of claim 3 wherein said second propellant charge substantially fills the space between the outer peripheral wall and the inner peripheral wall of the inflator body. 6. The inflator of claim 5 wherein said filter constrains said second propellant charge in said space. 7. An inflator for an inflatable restraint system in a vehicle comprising: an inflator body having first and second ends and an inner peripheral wall; a booster cup extending in said body and having an outer peripheral wall and an end surface extending inwardly from said outer peripheral wall, said booster cup having a first propellant charge positioned therein; said inner peripheral wall and said outer peripheral wall are separated by a substantially annular space having a second propellant charge positioned therein; an initiator assembly disposed proximate said first end and operable to ignite said first propellant charge; a filter abutting said booster cup end surface; a perforated disc abutting said filter; the filter comprising a wire mesh material extending continuously from the booster cup end surface to the perforated disc; and a nozzle positioned at said second end of said body and abutting said perforated disc, said nozzle defining a nozzle outlet for supplying an inflation gas to the inflatable restraint system. 8. The inflator of claim 7 wherein said body has a total length and an area defined by a cross-section thereof, and said filter has a given length about one-fourth to one-half of the total length of the body, said filter occupying a volume determined by multiplying the cross-section of said body by the length of said filter. 9. The inflator of claim 7 wherein said booster cup is a substantially cylindrical elongate member substantially coaxial with said inflator body. 10. The inflator of claim 9 wherein said booster cup includes a plurality of apertures formed in said outer peripheral wall. 11. The inflator of claim 10 wherein said substantially annular space extends longitudinally in said inflator body from a point proximate said first end up to a point substantially coplanar with said end surface. 12. The inflator of claim 7 wherein said filter is substantially cylindrical and includes a substantially cylindrical periphery positioned adjacent said inner peripheral wall, and a substantially planar end positioned flush with said end surface. 13. An inflatable restraint system for a motor vehicle comprising: an inflatable restraint device; an inflator operable to provide an inflation gas to said inflatable restraint device, said inflator comprising an elongate substantially cylindrical inflator body having first and second ends and an inner peripheral wall; an elongate booster cup mounted to said inflator body proximate said first end and extending substantially coaxially therewith, said booster cup having an outer peripheral wall separated from said inner peripheral wall by an annular space, and a plurality of apertures formed in said outer peripheral wall; a propellant charge positioned in said space; a filter positioned in said inflator body abutting an end portion of the booster cup, said filter securing said propellant charge in said space; a perforated disc abutting said filter; the filter comprising a wire mesh material extending continuously from the booster cup end surface to the perforated disc; and a nozzle member proximate said second end of said inflator body and abutting said perforated disc, said nozzle member constraining said filter against axial displacement. 14. The inflatable restraint system of claim 13 wherein said propellant charge comprises a plurality of gas generant tablets positioned in a geometrically ordered fashion in said annular space. 15. The inflatable restraint system of claim 14 wherein said propellant charge comprises a plurality of gas generant tablets stacked adjacently in said annular space and having cylindrical axes oriented substantially perpendicular said inner peripheral wall. 16. The inflatable restraint system of claim 13 wherein said nozzle is threadedly engaged with said inflator body. 17. The inflatable restraint system of claim 13 wherein said filter is secured against said booster cup, thereby constraining said propellant charge from movement in said annular space. 18. The inflatable restraint system of claim 13 further comprising a propellant charge positioned in said booster cup. 19. The inflatable restraint system of claim 13 further comprising an initiator body within said inflator body proximate said first end; wherein said booster cup is attached to said initiator body and suspended therefrom, said booster cup supported in said inflator body solely by said attachment with said initiator body. 20. The inflatable restraint system of claim 13 wherein the inflatable restraint device is an airbag. 21. The inflatable restraint system of claim 13 wherein the inflatable restraint device is an airbelt. 22. An inflatable airbelt system for a motor vehicle comprising: an inflatable airbelt; an inflator operable to provide an inflation gas to said airbelt, said inflator comprising an inflator body and a booster cup extending in said body, said booster cup having an outer peripheral wall and an end surface extending radially inwardly from said wall; said booster cup includes a plurality of apertures formed in said outer peripheral wall; a first propellant charge positioned in said booster cup; a second propellant charge positioned in said inflator body; an initiator assembly operable to activate said first propellant charge, wherein a combustion thereof initiates a combustion of said second propellant charge via said apertures; a filter abutting said booster cup end surface; a perforated disc abutting said filter; the filter comprising a wire mesh material extending continuously from the booster cup end surface to the perforated disc; and a nozzle positioned at an end of said inflator and abutting said perforated disc for supplying an inflation gas to the inflatable restraint system. 23. The airbelt system of claim 22 wherein said booster cap is an elongate substantially cylindrical member oriented substantially coaxially with said inflator body. 24. The airbelt system of claim 23 wherein said inflator body includes an inner peripheral wall spaced from said outer peripheral wall of said booster cup by an annular space; said second propellant charge positioned in said space. 25. The airbelt system of claim 24 filter constrains said second propellant charge in said space. 26. An inflator module for a vehicle occupant protection system comprising: a module housing; an inflator positioned in said housing, said inflator comprising a booster cup mounted within said inflator and extending substantially coaxially therewith, said booster cup having an outer peripheral wall partially defining an annular space and a plurality of apertures formed in said outer peripheral wall; a propellant charge positioned in said space; a filter positioned in said inflator abutting an end portion of said booster cup for securing said propellant charge in said space; a perforated disc abutting said filter; the filter comprising a wire mesh material extending continuously from the booster cup end surface to the perforated disc; and a nozzle positioned at an end of said inflator and abutting said perforated disc for supplying an inflation gas. 27. The inflator module of claim 26 wherein said inflator comprises an inflator body having an inner peripheral wall opposing said outer peripheral wall, said inner and outer peripheral walls defining said space. 28. The inflator module of claim 27 wherein said filter constrains said propellant charge in said space. 29. A method of manufacturing a gas generator comprising the steps of: positioning a booster cup within an elongate substantially cylindrical inflator body; placing a propellant charge in a space extending between an outer peripheral wall of the booster cup and an inner peripheral wall of the inflator body; inserting a filter member comprising a wire mesh material into the inflator body up to a point at which the filter bears against an end surface of the booster cup; positioning a perforated disc abutting said filter member such that the wire mesh material extends continuously from the booster cup end surface to the perforated disc; and positioning a nozzle member in the inflator body at a selected axial position and abutting said perforated disc such that the filter is constrained from axial movement between the nozzle member and the booster cup, whereby the filter secures the propellant charge in the space. 30. The method of claim 29 wherein the step of placing a propellant charge in the space comprises placing propellant tablets therein. 31. The method of claim 30 wherein the step of placing the propellant charge in the space comprises placing the propellant tablets therein in a geometrically ordered fashion up to a point substantially coplanar with an end surface of the booster cup. 32. The method of claim 29 wherein the filter length is sized to reduce or increase a gas pressure resulting from activation of the gas generator. 33. A gas generator manufactured according to the method of claim 29.
Davis, Leland E.; Dahle, David P.; Schneiter, Fred E.; Kirchoff, George F., Method of and apparatus for speeding the response of an air bag inflator at low temperatures.
Alexander Busgen DE; S. Jay Cross ; Edward Lee Morris, Jr. ; Lowell William Roemke ; William Lewis Walthall, Seatbelt system having seamless inflatable member.
Moeller, Trenton Dirk; Vargas, Louis Gregory; Humbert, Todd Joseph; Merrill, David T., Extending pass-through airbag occupant restraint systems, and associated systems and methods.
Foubert, Daniel Nick; Keeslar, Kevin, Inflatable personal restraint systems having web-mounted inflators and associated methods of use and manufacture.
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