System and method for gas bag inflation and deflation
First Claim
1. A system for inflating and deflating an air bag within a vehicle, the air bag having an air bag orifice for receiving an inflating gas, the system comprising:
- a flow guide having an exterior port in fluid communication with the ambient air outside the vehicle, said flow guide having an air bag port connectable in fluid communication with the air bag orifice, said flow guide also having an internal bore permitting fluid flow between said exterior port and said air bag port;
a nozzle disposed within said flow guide bore; and
an inflator secured to said nozzle and containing a pressurized gas means, said inflator configured to expel pressurized gas produced by said pressurized gas means through said nozzle into said flow guide bore,wherein said flow guide comprises a wall, said exterior port is positioned within said wall, said nozzle is disposed substantially concentrically within said flow guide,wherein said flow guide and said nozzle substantially share a central axis, and a transverse plane is any plane transverse to said central axis,wherein said nozzle has an end disposed at a lead distance from said exterior port, said lead distance measured along said wall from an edge of said exterior port to a transverse plane containing said nozzle end,wherein said flow guide has a radius measured from said central axis to said wall in a transverse plane, andwherein the ratio of said lead distance to said radius is in the range from about 0.5 to about 1.0.
5 Assignments
0 Petitions
Accused Products
Abstract
A system and method for inflating and deflating an air bag within a vehicle without substantially exposing the occupants of the vehicle to toxic compounds, particulates, and other contaminants in the gas mixture used to inflate the air bag. The system includes a flow guide having an exterior port in fluid communication with the ambient air outside the vehicle, an air bag port connectable in fluid communication with the air bag, and an internal bore permitting fluid flow between the exterior port and the air bag. A nozzle disposed within the flow guide bore is secured to an inflator containing a pressurized gas source. The nozzle and flow guide preferably have certain geometric characteristics disclosed herein. In operation, gas is expelled from the gas bag inflator through the nozzle at a velocity sufficient to entrain ambient air from outside the vehicle. The entrained ambient air mixes with the gas expelled through the nozzle, and the mixture inflates the air bag. The air bag is deflated by moving the mixture out of the air bag and through the flow guide bore for disposition amidst ambient air outside the vehicle. Thus, the vehicle'"'"'s occupants are not substantially exposed to the mixture and its contaminants, because the bag is vented outside the vehicle.
18 Citations
8 Claims
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1. A system for inflating and deflating an air bag within a vehicle, the air bag having an air bag orifice for receiving an inflating gas, the system comprising:
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a flow guide having an exterior port in fluid communication with the ambient air outside the vehicle, said flow guide having an air bag port connectable in fluid communication with the air bag orifice, said flow guide also having an internal bore permitting fluid flow between said exterior port and said air bag port; a nozzle disposed within said flow guide bore; and an inflator secured to said nozzle and containing a pressurized gas means, said inflator configured to expel pressurized gas produced by said pressurized gas means through said nozzle into said flow guide bore, wherein said flow guide comprises a wall, said exterior port is positioned within said wall, said nozzle is disposed substantially concentrically within said flow guide, wherein said flow guide and said nozzle substantially share a central axis, and a transverse plane is any plane transverse to said central axis, wherein said nozzle has an end disposed at a lead distance from said exterior port, said lead distance measured along said wall from an edge of said exterior port to a transverse plane containing said nozzle end, wherein said flow guide has a radius measured from said central axis to said wall in a transverse plane, and wherein the ratio of said lead distance to said radius is in the range from about 0.5 to about 1.0. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for use in a vehicle, said system comprising:
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an air bag having an air bag orifice and an interior, said air bag comprising a substantially air-tight enclosure secured about said air bag orifice such that substantially all fluid communication with said interior occurs by way of said air bag orifice; a flow guide having an exterior port in fluid communication with the ambient air outside the vehicle, said flow guide having an air bag port connected in fluid communication with said air bag orifice, said flow guide also having an internal bore permitting fluid flow between said exterior port and said air bag port; a nozzle disposed within said flow guide bore; and an inflator secured to said nozzle and containing a pressurized gas means, said inflator configured to expel pressurized gas produced by said pressurized gas means through said nozzle into said flow guide bore; wherein said flow guide comprises a wall, said exterior port is positioned within said wall, said nozzle is disposed substantially concentrically within said flow guide, wherein said flow guide and said nozzle substantially share a central axis, and a transverse plane is any plane transverse to said central axis, wherein said nozzle has an end disposed at a lead distance from said exterior port, said lead distance measured along said wall from an edge of said exterior port to a transverse plane containing said nozzle end, wherein said flow guide has a radius measured from said central axis to said wall in a transverse plane, and wherein the ratio of said lead distance to said radius is in the range from about 0.5 to about 1.0.
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Specification