US20140265275A1 - Delayed vent in airbag curtain - Google Patents
Delayed vent in airbag curtain Download PDFInfo
- Publication number
- US20140265275A1 US20140265275A1 US13/844,733 US201313844733A US2014265275A1 US 20140265275 A1 US20140265275 A1 US 20140265275A1 US 201313844733 A US201313844733 A US 201313844733A US 2014265275 A1 US2014265275 A1 US 2014265275A1
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- US
- United States
- Prior art keywords
- curtain airbag
- inflatable curtain
- chamber
- inflatable
- airbag assembly
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/02—Occupant safety arrangements or fittings, e.g. crash pads
- B60R21/16—Inflatable occupant restraints or confinements designed to inflate upon impact or impending impact, e.g. air bags
- B60R21/23—Inflatable members
- B60R21/239—Inflatable members characterised by their venting means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/02—Occupant safety arrangements or fittings, e.g. crash pads
- B60R21/16—Inflatable occupant restraints or confinements designed to inflate upon impact or impending impact, e.g. air bags
- B60R21/23—Inflatable members
- B60R21/231—Inflatable members characterised by their shape, construction or spatial configuration
- B60R21/232—Curtain-type airbags deploying mainly in a vertical direction from their top edge
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/02—Occupant safety arrangements or fittings, e.g. crash pads
- B60R21/16—Inflatable occupant restraints or confinements designed to inflate upon impact or impending impact, e.g. air bags
- B60R21/23—Inflatable members
- B60R21/231—Inflatable members characterised by their shape, construction or spatial configuration
- B60R21/233—Inflatable members characterised by their shape, construction or spatial configuration comprising a plurality of individual compartments; comprising two or more bag-like members, one within the other
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/02—Occupant safety arrangements or fittings, e.g. crash pads
- B60R21/16—Inflatable occupant restraints or confinements designed to inflate upon impact or impending impact, e.g. air bags
- B60R21/23—Inflatable members
- B60R21/231—Inflatable members characterised by their shape, construction or spatial configuration
- B60R21/233—Inflatable members characterised by their shape, construction or spatial configuration comprising a plurality of individual compartments; comprising two or more bag-like members, one within the other
- B60R2021/23324—Inner walls crating separate compartments, e.g. communicating with vents
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R21/00—Arrangements or fittings on vehicles for protecting or preventing injuries to occupants or pedestrians in case of accidents or other traffic risks
- B60R21/02—Occupant safety arrangements or fittings, e.g. crash pads
- B60R21/16—Inflatable occupant restraints or confinements designed to inflate upon impact or impending impact, e.g. air bags
- B60R21/23—Inflatable members
- B60R21/239—Inflatable members characterised by their venting means
- B60R2021/2395—Inflatable members characterised by their venting means comprising means to control the venting
Definitions
- Airbags are often mounted to a vehicle and deploy so as to prevent an occupant from impacting vehicular structures and/or to prevent an occupant from being ejected from a vehicle in a collision. In some instances, the airbags can suffer from one or more drawbacks or may perform less than optimally in one or more respects. Embodiments disclosed herein provide improvement in performance of airbags.
- FIG. 1A is an elevation view of an embodiment of an inflatable curtain airbag assembly mounted within a vehicle, wherein the assembly is shown in a packaged configuration;
- FIG. 1B is another elevation view of the inflatable curtain airbag assembly of FIG. 1A shown in a deployed configuration
- FIG. 2 is an elevation view of an embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 3 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 4 is a graph comparing values of occupant acceleration and occupant displacement into an airbag
- FIG. 5A is an elevation view of another embodiment of an inflatable curtain airbag assembly mounted within a vehicle, wherein the assembly is shown in a packaged configuration;
- FIG. 5B is another elevation view of the inflatable curtain airbag assembly of FIG. 5A shown in a deployed configuration
- FIG. 6 is an elevation view of an embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 5A and 5B ;
- FIG. 7 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 5A and 5B ;
- FIG. 8 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 9A is an enlarged cross-sectional view of the inflatable curtain airbag of FIG. 8 taken along line 9 A- 9 A depicting an embodiment of a venting panel in a closed configuration;
- FIG. 9B is an enlarged cross-sectional view of the inflatable curtain airbag of FIG. 8 taken along line 9 A- 9 A depicting the embodiment of the venting panel of FIG. 9A in an open configuration;
- FIG. 10 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 11 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 12 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 13A is an enlarged cross-sectional view of the inflatable curtain airbag of FIG. 12 taken along line 13 A- 13 A depicting an embodiment of a venting panel in a closed configuration;
- FIG. 13B is an enlarged cross-sectional view of the inflatable curtain airbag of FIG. 12 taken along line 13 A- 13 A depicting the embodiment of the venting panel of FIG. 13A in an open configuration;
- FIG. 14A is an enlarged cross-sectional view of the inflatable curtain airbag of FIG. 12 taken along line 13 A- 13 A depicting another embodiment of a venting panel in a closed configuration;
- FIG. 14B is an enlarged cross-sectional view of the inflatable curtain airbag of FIG. 12 taken along line 13 A- 13 A depicting the embodiment of the venting panel of FIG. 14A in an open configuration;
- FIG. 15 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 16 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B ;
- FIG. 17A is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B shown in a coupled configuration;
- FIG. 17B is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly of FIGS. 1A and 1B shown in an uncoupled configuration.
- the phrases “connected to” and “coupled to” are used in their ordinary sense, and are broad enough to refer to any suitable coupling or other form of interaction between two or more entities, including mechanical, fluid and thermal interaction. Two components may be coupled to each other even though they are not in direct contact with each other.
- the phrases “attached to” or “attached directly to” refer to interaction between two or more entities which are in direct contact with each other and/or are separated from each other only by a fastener of any suitable variety (e.g., mounting hardware or an adhesive).
- the phrase “fluid communication” is used in its ordinary sense, and is broad enough to refer to arrangements in which a fluid (e.g., a gas or a liquid) can flow from one element to another element when the elements are in fluid communication with each other.
- Airbag modules have been installed at various locations within a vehicle, including, but not limited to, the steering wheel, the instrument panel, within the side doors or side seats, adjacent to the roof rail of the vehicle, in an overhead position, or at the knee or leg position.
- airbag generally refers to an inflatable curtain airbag or cushion, although the principles discussed may apply to other airbag types in other embodiments.
- Inflatable curtain airbags typically extend longitudinally within the vehicle and are usually coupled to or next to the roof rail of the vehicle.
- inflatable curtain cushions In an undeployed state, inflatable curtain cushions are typically rolled and/or folded, and may be retained in the undeployed configuration by being wrapped in a restraint at various attachment points at which the inflatable airbag is attached to the vehicle, or by being enclosed in a restraint, such as a sleeve or sock.
- an inflatable curtain cushion may expand and burst free from the restraint to cover at least a portion of the side windows and one or more pillars of the vehicle.
- inflatable curtain cushions may cover one or more of the A-, B-, C-, and D-pillars of a vehicle.
- the inflated curtain airbag may extend from the A-pillar to the C-pillar of the vehicle.
- a deployed inflatable curtain cushion may extend from the A-pillar to the D-pillar of the vehicle.
- the inflatable curtain cushion may be inflated by an inflator and change conformation from being rolled and/or folded in the packaged state to being extended and/or inflated in a deployed state.
- the amount of gas from the inflator that is retained within the inflatable curtain determines how hard or soft the cushioning of the curtain will be. Other factors may also affect the cushioning abilities of the inflatable curtain airbag.
- Some inflatable curtain cushions may be configured to serve dual functions of cushioning and ejection prevention.
- the curtain may cushion the head and upper body of an occupant, and during a roll-over event, the cushion may function to help retain the occupant within the vehicle.
- Inflatable curtain cushions help mitigate the risk of occupant ejection by forming a barrier between the occupant and the side windows.
- Some inflatable airbags have a throat portion that is in fluid communication with an inflator.
- the inflator may be configured to generate inflation gas in response to predetermined conditions.
- the inflatable airbag may comprise one or more voids or chambers for receiving the inflation gas.
- the throat liner may be positioned in the void of the inflatable airbag at the throat portion. In some instances the throat liner may extend beyond the throat portion along a longitudinal length of the inflatable airbag. Throat liners of any length and at any position within the void of the throat portion and/or the inflatable airbag are within the scope of this disclosure.
- the throat liner may be made of the same material as the throat portion and the inflatable airbag. In other embodiments, the throat liner may be made of a different material than the throat portion and/or the inflatable cushion. The materials may have different strengths, melting temperatures, and other relevant properties.
- the inflatable curtain airbags disclosed herein may be configured to vent inflation gas in a controlled or delayed manner from one or more chambers or segments of the airbag. Such controlled or delayed venting of the inflatable cushion segments may soften the cushioning provided by the deployed inflatable airbag. Inflatable curtain airbags with varying levels of hardness in different portions or segments of the airbag may be desirable.
- FIGS. 1A and 1B depict an embodiment of an inflatable curtain airbag assembly 100 mounted within a vehicle 50 .
- the assembly 100 is in a packaged configuration
- FIG. 1B the assembly 100 is in a deployed configuration.
- the assembly 100 can include an inflatable curtain airbag 120 (see also FIG. 1B ), which can be secured to the vehicle 50 in any suitable manner.
- the inflatable curtain airbag 120 may also be referred to herein as a cushion or as an airbag.
- the inflatable curtain airbag 120 is positioned at an interior of a restraint 102 so as to be retained in a packaged configuration.
- the restraint 102 may be of any suitable variety, such as one or more straps, tethers, socks, or sleeves.
- the restraint 102 comprises a sleeve that extends along substantially a full length of the inflatable curtain airbag 120 , such that a majority of the inflatable curtain airbag 120 is obscured from view by the sleeve in FIG. 1A .
- the assembly 100 can be attached to the vehicle 50 in any suitable manner.
- the assembly 100 includes one or more fastening assemblies 110 that are configured to secure one or more of the inflatable curtain airbag 120 and the restraint 102 to the vehicle 50 .
- the assembly 100 can be mounted inside the vehicle 50 adjacent to a roof of the vehicle, such as to a roof rail 52 .
- each fastening assembly 110 includes a tether or strap 116 that is secured to mounting hardware, such as a tab 112 that is secured to the roof rail 52 via a fastener 114 , such as a bolt. Any other suitable fastening arrangement is contemplated.
- Each strap 116 may be coupled with one or more of the inflatable curtain airbag 120 and the restraint 102 in any suitable manner.
- a forward end of the assembly 100 can include a strap 104 , which may be secured to the vehicle in any suitable manner.
- the strap 104 is attached to a lower end of an A-pillar 62 .
- the strap 104 can be attached to a forward end 124 of the inflatable curtain airbag 120 .
- An upper end 122 of the inflatable curtain airbag 120 can be attached to the straps 116 .
- the straps 116 are sewn to the inflatable curtain airbag 120 .
- the straps 116 may be integrally formed with the inflatable curtain airbag 120 , and may extend from one or more panels of the inflatable cushion 120 .
- the assembly can further include an inflator 118 , which may be positioned within a throat 126 of the inflatable curtain airbag 120 .
- the inflator 118 can be anchored to the roof rail 52 , and may be of any suitable variety.
- the inflator 118 comprises either a pyrotechnic device or a stored gas inflator.
- the inflator 118 can be in electronic communication with vehicle sensors which are configured to detect vehicle collisions and/or rollovers. Upon detection of predetermined conditions, the sensors can activate the inflator 118 and the inflatable curtain airbag 120 may be rapidly inflated.
- the inflatable curtain airbag 120 can be configured to cover various structures of the vehicle 50 when deployed.
- at least a portion of the deployed inflatable curtain airbag 120 can cover one or more of the A-pillar 62 , a B-pillar 64 , and a C-pillar 66 , and/or one or more side windows 70 .
- the illustrated embodiment is configured to cover the B-pillar 64 , and each of the side windows 70 .
- the inflatable curtain airbag 120 can define various portions that provide different amounts of cushioning relative to the vehicle structures.
- the inflatable curtain airbag 120 can include various inflatable chambers, cells, or cushion segments that are configured to be filled with inflation gases in order to cushion a vehicle occupant during a collision event.
- the inflatable cushion segments 142 can be configured to deploy at strategic areas at which a vehicle occupant may benefit most from the cushioning.
- the illustrated embodiment includes a plurality of inflatable cushion segments 142 that are in fluid communication with an inflation gas delivery channel 140 .
- inflation gases may be retained within a given inflatable cushion segment 142 to maintain the inflatable cushion segment 142 in an inflated or filled configuration, even when a vehicle occupant presses against the inflatable cushion segment 142 .
- Such an arrangement can allow the inflatable cushion segment 142 to provide a desired amount of protection to the vehicle occupant.
- the inflatable curtain airbag 120 can include one or more non-inflatable regions 144 , one or more of which may be positioned between adjacent inflatable cushion segments 142 or at an interior of an inflatable cushion segment 142 (e.g., so as to be encompassed by an inflatable cushion segment 142 ).
- the one or more boundary seams 150 may be formed in any suitable manner.
- the one or more boundary seams 150 may comprise one or more of stitches, welds (e.g., radiofrequency welds), and/or adhesives.
- the boundary seams 150 may be woven portions that are formed via one-piece weaving techniques.
- the boundary seams 150 may join together two or more pieces of fabric, such as a front face 132 and a rear face 134 .
- the one or more boundary seams 150 are substantially airtight so as to be able to retain inflation gas within a given inflatable cushion segment 142 .
- the one or more boundary seams 150 can be said to fluidly isolate adjacent inflatable cushion segments 142 from each other.
- the one or more boundary seams 150 may not be airtight, but may instead resist egress of gases from an inflatable cushion segment 142 .
- the shapes of the inflatable curtain airbag 120 and its various components, such as the segments 142 , that are depicted in FIG. 1B are not necessarily limiting. These shapes may be altered, such as to accommodate differently shaped vehicles.
- the inflated inflatable curtain airbag 120 is configured to fit within the side window wells of vehicle 50 .
- the inflatable curtain airbag 120 may comprise a contiguous piece of material manufactured using a one-piece woven technique, in some embodiments, or in other or further embodiments, may be manufactured by cutting and sewing separate pieces of material (e.g., nylon fabric) together.
- the front and rear faces 132 , 134 may be formed from separate sheets of material that are joined together. In other embodiments, the front and rear faces 132 , 134 may be formed from a unitary piece of material.
- the restraint 102 is a sleeve that covers an entirety of the inflatable curtain airbag 120 .
- the restraint 102 may merely comprise a plurality of straps, and each strap may encompass a portion of various components of the inflatable curtain airbag 120 , such as, for example, portions of the inflation gas delivery channel 140 .
- FIG. 2 depicts another embodiment of an inflatable curtain airbag 220 that can resemble the inflatable curtain airbag 120 described above in certain respects, and that can be compatible with the assembly 100 . Accordingly, like features are designated with like reference numerals, with the leading digits incremented to “2.” Relevant disclosure set forth above regarding similarly identified features thus may not be repeated hereafter. Moreover, specific features of the inflatable curtain airbag 220 may not be shown or identified by a reference numeral in the drawings or specifically discussed in the written description that follows. However, such features may clearly be the same, or substantially the same, as features depicted in other embodiments and/or described with respect to such embodiments. Accordingly, the relevant description of such features applies equally to the features of the inflatable curtain airbag 220 .
- the inflatable curtain airbag 220 has a longitudinal orientation and includes a throat portion 226 at a proximal end.
- proximal and distal refer to proximity to the inflator 118 and/or direction of inflation gas flow during deployment, where more proximally oriented features are closer to the inflator 118 and/or contact inflation gases sooner than do more distally oriented features.
- the throat portion 226 may be configured to receive at least a portion of an inflator 118 therein and/or to be coupled with the inflator 118 .
- the inflatable curtain airbag 220 includes a front face 232 and a rear face 234 that meet at an edge 254 .
- the inflatable curtain airbag 220 further comprises a boundary seam 250 adjacent to the edge 254 of the inflatable curtain airbag 220 .
- the boundary seam 250 also defines the one or more inflatable cushion segments 242 and non-inflatable regions 244 .
- the inflatable cushions segments 242 are in fluid communication with each other.
- the inflatable cushion segments 242 may not be in fluid communication with one another, and in other embodiments, only a portion of a total number of inflatable cushion segments 242 may be in fluid communication with one another.
- the one or more boundary seams 250 may fluidly seal the void of the inflatable cushion 220 .
- the one or more boundary seams 250 may not be airtight but may instead resist egress of gasses from the void of the inflatable cushion 220 .
- the inflatable curtain airbag 220 further includes a throat liner 227 in fluid communication with and disposed within at least a portion of the throat portion 226 .
- the throat liner 227 may comprise an aperture for passage of the inflation gas into the inflatable curtain airbag 220 .
- the throat liner 227 may comprise two panels that cooperate to form the aperture for passage of the inflation gas into the inflatable curtain airbag 220 .
- the throat liner 227 may be formed from a unitary piece of material.
- the throat liner 227 may be woven by a one-piece woven technique.
- the throat liner 227 may also be configured to receive at least a portion of the inflator 118 therein and/or to be coupled with the inflator 118 .
- the throat liner 227 comprises an opening 228 at a position distal to the inflator 118 and a vent 230 spaced along a longitudinal length of the throat liner 227 .
- the throat liner 227 can comprise one or more vents 230 spaced along the longitudinal length of the throat liner 227 .
- the one or more vents 230 and/or openings 228 can be configured to selectively distribute the inflation gas into various portions and/or segments of the inflatable curtain airbag 220 .
- the throat liner 227 extends in the longitudinal orientation of the inflatable curtain airbag 220 distally from the throat portion 226 .
- Throat liners 227 are also within the scope of this disclosure.
- the inflatable curtain airbag 220 comprises two chambers, a first chamber 236 and a second chamber 238 , wherein a volume of the first chamber 236 is greater than a volume of the second chamber 238 .
- the first chamber 236 extends in a longitudinal orientation along about two-thirds of a length of the inflatable curtain airbag 220 and the second chamber 238 extends in a longitudinal orientation along about one-third of the length of the inflatable curtain airbag 220 .
- the relative volumes and/or lengths of the first and second chambers 236 , 238 may be different than depicted in the illustrated embodiment.
- the second chamber 238 may be positioned at or adjacent to a C-pillar 66 of a vehicle 50 .
- the second chamber 238 may be positioned rearward to a B-pillar 64 of a vehicle 50 .
- Each of the first and second chambers 236 , 238 comprise at least one inflatable cushion segment 242 .
- both of the first and second chambers 236 , 238 are in fluid communication with the throat liner 227 .
- the first and second chambers 236 , 238 may be in fluid communication with each other and with other components of the inflatable curtain airbag 220 .
- the first and second chambers 236 , 238 may be coupled to the throat portion 226 in embodiments that lack a throat liner 227 .
- the first chamber 236 comprises three inflatable cushion segments 242
- the second chamber 238 comprises one inflatable cushion segment 242 .
- the first chamber 236 may comprise more or less than three inflatable cushion segments 242 .
- the second chamber 238 may comprise more or less than one inflatable cushion segment 242 .
- the configuration, number, and/or positioning of the inflatable cushion segments 242 can be designed so as to provide the inflatable curtain airbag 220 with desired protective and cushioning characteristics.
- the second chamber 238 further comprises a substantially U-shaped tortuous vent 237 , wherein the tortuous vent 237 is in fluid communication with an exterior of the inflatable curtain airbag 220 .
- the tortuous vent 237 is also in fluid communication with the inflatable cushion segment 242 of the second chamber 238 .
- the tortuous vent 237 may comprise a plurality of loops and/or turns.
- the tortuous vent 237 may be substantially C-shaped, S-shaped, circuitous, or otherwise shaped.
- the shape of the tortuous vent may be configured to delay venting of the inflation gas from the void of the inflatable curtain airbag 220 .
- the dashed arrows in FIG. 2 depict possible paths of the inflation gas as the inflation gas enters the inflatable curtain airbag 220 during deployment.
- a first portion of the inflatable gas may enter the first chamber 236 and second portion of the inflation gas may enter the second chamber 238 .
- the first portion of the inflation gas comprises a greater volume than the second portion of the inflation gas.
- the inflation gas inflates the inflatable cushion segments 242 the volume of the inflation gas in the inflatable curtain airbag 220 may reach a predetermined value.
- the predetermined value may be reached when the volume of inflation gas in at least one of the first and second chambers 236 , 238 reaches a specified level.
- the tortuous vent 237 may be configured to permit or allow passage of inflation gas through at least a portion of a length of the tortuous vent 237 .
- the predetermined value may be set to be reached when an occupant strikes the second chamber 238 in a collision event.
- the tortuous vent 237 may also be configured such that approximately when the one or more inflatable cushion segments 242 of the second chamber 238 are fully inflated, the inflation gas may begin to egress from a distal end of the tortuous vent 237 , and the inflation gas may begin to further egress to an exterior of the inflatable curtain airbag 220 .
- the inflatable curtain airbag 220 and/or the tortuous vent 237 may also be configured such that the inflation gas may exit the tortuous vent 237 at other desired time points.
- FIG. 3 depicts another embodiment of an inflatable curtain airbag 320 such as the inflatable curtain airbag 220 discussed above.
- inflatable curtain airbag 320 is compatible with embodiments of the assembly 100 discussed above.
- inflatable curtain airbag 320 comprises a first chamber 336 and a second chamber 338 .
- the second chamber 338 comprises an inflatable cushion segment 342 in fluid communication with both of a throat liner 327 and a tortuous vent 337 .
- the tortuous vent 337 is in fluid communication with a third chamber 339 .
- tortuous vent 337 can vent inflation gas internally into the third chamber 339 .
- the inflation gas may not egress to the exterior of the inflatable cushion segment 320 .
- Embodiments of the inflatable curtain airbags 320 may be desirable in vehicles where it is advantageous to contain the inflation gas within the inflatable curtain airbag 320 .
- FIG. 4 is a graph comparing values of vehicle occupant acceleration and vehicle occupant displacement into an airbag.
- the graph compares these values in two embodiments, including a baseline airbag embodiment and a delayed vent airbag embodiment.
- the dotted line depicts values associated with the baseline airbag embodiment, which is a sealed airbag that does not comprise a vent.
- the solid line depicts values associated with the delayed vent airbag embodiment, which is an airbag with a delayed vent (e.g., such as tortuous vent 237 ) as disclosed herein.
- the baseline airbag may be stiffer, when fully deployed, than an airbag comprising a vent. As depicted in FIG. 3 , the baseline airbag has a higher magnitude of acceleration than the delayed vent airbag.
- the delayed vent may reduce the magnitude of acceleration of the delayed vent airbag as compared to the baseline airbag, and a delayed vent may also increase the magnitude of occupant displacement into the airbag as compared to the baseline airbag. Such changes in magnitude may result in improved cushioning abilities of the airbag.
- FIGS. 5A and 5B depict another embodiment of an inflatable curtain airbag assembly 400 mounted within a vehicle 50 such as the inflatable curtain airbag assembly 100 discussed above.
- the assembly 400 is in a packaged configuration
- FIG. 5B the assembly 400 is in a deployed configuration.
- the assembly 400 can further include an inflator 418 , which may be positioned within a throat portion 426 of the inflatable curtain airbag 420 .
- the inflator 418 can be anchored to the roof rail 52 , and may be of any suitable variety. Whereas the inflator 118 is anchored to the vehicle 50 adjacent to the C-pillar 66 forming an “end-fill” configuration, the inflator 418 is anchored to the vehicle 50 rearward of the B-pillar 64 forming a “mid-fill” configuration. As described for inflator 118 , upon detection of predetermined conditions, vehicle sensors can activate the inflator 418 and the inflatable curtain airbag 420 may be rapidly inflated.
- FIGS. 6 and 7 depict two additional embodiments of inflatable curtain airbags 520 , 620 that can resemble the inflatable curtain airbags 220 , 320 described above in certain respects.
- Inflatable curtain airbags 520 , 620 are compatible with the assembly 400 .
- the inflatable curtain airbag 520 has a longitudinal orientation and includes a throat portion 526 at a middle portion of the inflatable curtain airbag 520 .
- the inflatable curtain airbag 520 includes a throat liner 527 in fluid communication with and disposed within at least a portion of the throat portion 526 .
- the throat liner 527 comprises two openings 528 at positions distal to the inflator 418 .
- the throat liner 527 extends in the longitudinal orientation of the inflatable curtain airbag 520 distally from the throat portion 526 .
- inflatable curtain airbag 520 comprises two chambers, a first chamber 536 and a second chamber 538 .
- the second chamber 538 further comprises a substantially U-shaped tortuous vent 537 , wherein the tortuous vent 537 is in fluid communication with an exterior of the inflatable curtain airbag 520 .
- the tortuous vent 537 is also in fluid communication with the inflatable cushion segment 542 of the second chamber 538 .
- the dashed arrows in FIG. 6 depict possible paths of the inflation gas as the inflation gas enters the inflatable curtain airbag 520 during deployment.
- a first portion of the inflatable gas may enter the first chamber 536 and second portion of the inflation gas may enter the second chamber 538 .
- the first portion of the inflation gas comprises a greater volume than the second portion of the inflation gas.
- the tortuous vent 537 may be configured to permit or allow passage of the inflation gas through at least a portion of a length of the tortuous vent 537 .
- inflatable curtain airbag 620 also comprises a first chamber 636 and a second chamber 638 .
- the second chamber 638 comprises an inflatable cushion segment 642 in fluid communication with both of a throat liner 627 and a tortuous vent 637 .
- the tortuous vent 637 is in fluid communication with a third chamber 639 .
- tortuous vent 637 can vent inflation gas internally into the third chamber 639 .
- the inflation gas may not egress to the exterior of the inflatable cushion segment 620 , rather the inflatable gas egresses into a void of the third chamber 639 .
- FIG. 8 Another embodiment of an inflatable curtain airbag 720 such as the inflatable curtain airbags 220 , 320 discussed above, is depicted in FIG. 8 .
- Embodiments of the inflatable curtain airbag 720 are compatible with embodiments of the assembly 100 discussed above.
- the inflatable curtain airbag 720 has a longitudinal orientation and includes a throat portion 726 at a proximal end.
- the throat portion 726 may be configured to receive at least a portion of an inflator 118 therein and/or to be coupled with the inflator 118 .
- inflatable curtain airbag 720 also comprises a throat liner 727 in fluid communication with and disposed within at least a portion of the throat portion 726 . Further, the throat liner 727 extends in the longitudinal orientation of the inflatable curtain assembly 720 distally from the throat portion 726 . As described above, other throat liner 727 configurations are also contemplated.
- FIG. 8 depicts an inflatable curtain airbag 720 including a first chamber 736 and a second chamber 738 wherein a volume of the first chamber is greater than a volume of the second chamber 738 .
- the first chamber 736 can comprise a plurality of inflatable cushion segments 742 that are in fluid communication with the throat liner 727 .
- the second chamber 738 can be configured to receive inflation gas from one or more of the inflatable cushion segments 742 .
- the second chamber 738 can aid in controlling or maintaining an internal pressure of the inflatable curtain airbag 720 .
- one or more second chambers 738 may aid in maintaining the internal pressure below a predetermined value.
- the second chamber 738 is isolated from each of the inflatable cushion segments 742 , the throat liner 727 , the throat portion 726 , and the inflator 118 by a venting panel 758 .
- the inflatable curtain airbag 720 comprises one second chamber 738 distally disposed in the inflatable curtain airbag 720 relative to each of the venting panel 758 , the inflatable cushion segments 742 , and the throat portion 726 .
- the inflatable curtain airbag 720 as illustrated, comprises one venting panel 758 extending in a substantially transverse direction relative to the longitudinal orientation of the inflatable curtain airbag 720 .
- the one or more venting panels 758 may define a boundary of one or more of the inflatable cushion segments 742 .
- the one or more second chambers 738 and/or venting panels 758 may also be disposed at any suitable position in the inflatable curtain airbag 720 , as described more fully below in other embodiments.
- the venting panel 758 comprises a plurality of slits 760 or openings.
- FIGS. 9A and 9B are enlarged cross-sectional views of the inflatable curtain airbag of FIG. 8 taken along line 9 A- 9 A depicting an embodiment of a venting panel 758 .
- the venting panel 758 of FIG. 9A is in a closed configuration and the venting panel 758 of FIG. 9A in an open configuration.
- the slits 760 can be configured to transition from a closed configuration (as in FIG. 9A ) to an open configuration (as in FIG. 9B ) when a volume of inflation gas in the first chamber 736 reaches a predetermined value.
- the slits 760 can be configured to transition from a closed configuration to an open configuration when an interior pressure of the first chamber 736 reaches a predetermined value.
- the size and/or the shape of the slits can be designed such that the slits transition from a closed configuration to an open configuration when the pressure differential across the slits reaches a predetermined value. For example, slits with smaller dimensions may require a greater pressure differential across the slits to transition the slits from a closed configuration to an open configuration than may be required for slits with larger dimensions.
- the predetermined value may be reached when a vehicle occupant strikes a deployed inflatable curtain airbag 720 during a collision event.
- the venting panel 758 may define the boundary between the second chamber 738 and inflatable cushion segment 742 a , and inflatable cushion segment 742 a may be configured to deflate more quickly than the remaining inflatable cushion segments 742 of the first chamber 736 . Additionally, the venting panel 758 may prevent the inflation gas from moving from the inflatable cushion segments into the second chamber 738 when the slits 760 are in a closed configuration. Also, the venting panel 758 may permit the inflation gas to move more easily from the inflatable cushion segments 742 into the second chamber 738 when the slits 760 are in an open configuration.
- FIG. 10 depicts another embodiment of an inflatable curtain airbag 820 such as the inflatable curtain airbag 720 discussed above.
- Embodiments of the inflatable curtain airbag 820 are compatible with embodiments of assembly 100 discussed above.
- a first inflatable cushion segment 842 of the inflatable curtain airbag 820 is positioned proximally to the throat portion 826 and below the throat liner 827 .
- a second chamber 838 is positioned distally to the first inflatable cushion segment 842 .
- the venting panel 858 defines a boundary between the first inflatable cushion segment 842 and the second chamber 838 .
- venting panels 858 may be positioned in any suitable location in the inflatable curtain airbag 820 , as further discussed below. Placement of the second chamber 838 and/or the venting panel 858 can be made to impart desirable cushioning and venting characteristics to the inflatable curtain airbag 820 .
- FIG. 11 depicts yet another embodiment of an inflatable curtain airbag 920 , such as the inflatable curtain airbags 720 , 820 discussed above.
- Embodiments of inflatable curtain airbag 920 are compatible with embodiments of the assembly 100 discussed above.
- the venting panel 958 defines a boundary of one inflatable cushion segment 942 at or adjacent to the edge 954 of the inflatable curtain airbag 920 .
- the venting panel 958 is in fluid communication with an exterior of the inflatable curtain airbag 920 .
- the one inflatable cushion segment 942 may be configured to deflate more quickly than the remaining inflatable cushion segments 942 of the first chamber 936 .
- This embodiment may permit the inflation gas to egress from the interior of the inflatable curtain airbag 920 to the exterior of the inflatable curtain airbag 920 .
- the inflatable curtain airbag 920 does not comprise a second chamber, like the second chamber 838 . As discussed above, a variety of different locations in the inflatable curtain airbag 920 are suitable for disposition of the vent panel 958 .
- FIG. 12 shows another embodiment of an inflatable curtain airbag 1020 that can resemble the inflatable curtain airbags 720 , 820 , 920 described above in certain respects, and that can be compatible with the assembly 100 .
- the venting panels 758 , 858 , 958 in inflatable curtain airbags 720 , 820 , 920 comprise a plurality of slits 760
- the venting panel 1058 in inflatable curtain airbag 1020 comprises an opening 1066 .
- venting panel 1058 may comprise more than one opening 1066 .
- the opening 1066 may be retained in a closed configuration by at least one fold of a portion of the venting panel 1058 .
- the fold may be secured in place by a fastening mechanism 1068 .
- the fastening mechanism 1068 may comprise one or more of stitching, adhesives, clips, welding, and/or other suitable fasteners.
- the opening 1066 can be configured to transition from a closed configuration to an open configuration when a volume of inflation gas in the first chamber 1036 reaches a predetermined value. In other embodiments, the opening 1066 may be configured to transition from a closed configuration to an open configuration when an internal pressure of the inflation gas in the first chamber 1036 reaches a predetermined value. For example, the opening 1066 can be configured to open when the pressure differential across the opening 1066 approaches, reaches, or surpasses a predetermined value. In one embodiment, the predetermined value may be reached when a vehicle occupant strikes a deployed inflatable curtain airbag 1020 in a collision event.
- the venting panel 1058 may delay the inflation gas from moving out of the first chamber 1036 into the second chamber 1038 when the opening 1066 is in a closed configuration, and the venting panel 1058 may permit the inflation gas to move more easily out of the first chamber 1036 into the second chamber 1038 when the opening 1066 transitions to an open configuration.
- FIGS. 13A and 13B are enlarged cross-sectional views of the inflatable curtain airbag 1020 of FIG. 12 taken along line 13 A- 13 A.
- FIG. 13A depicts an embodiment of a venting panel 1058 in a closed configuration
- FIG. 13B depicts the embodiment of the venting panel 1058 of FIG. 13A in an open configuration.
- the fastening mechanism 1068 may comprise a tack stitch.
- FIG. 13A the venting panel 1058 is depicted as being configured into a fold. As illustrated, the fold can be secured by a tack stitch, wherein the opening 1066 (see also FIG. 13B ) is substantially sealed. As shown in FIG.
- the tack stitch may be configured to break when the volume of inflation gas in the first chamber 1036 reaches the predetermined value. In another embodiment, the tack stitch may be configured to break when the pressure of the inflation gas in the first chamber 1036 reaches the predetermined level. In embodiments, the tack stitch may be configured to permit the portion of the venting panel 1058 secured by the tack stitch to unfold and transition the venting panel 1058 from a closed configuration to an open configuration.
- FIGS. 14A and 14B are enlarged cross-sectional views of the inflatable curtain airbag 1020 of FIG. 12 taken along line 13 A- 13 A depicting another embodiment of a venting panel 1058 .
- FIG. 14A depicts the venting panel 1058 in a closed configuration
- FIG. 14B depicts the embodiment of the venting panel 1058 of FIG. 8A in an open configuration.
- the fastening mechanism may comprise one or more straps 1070 .
- the straps 1070 may comprise a tear seam wherein the tear seam is configured to break when the volume of inflation gas in the first chamber 1036 reaches a predetermined value.
- the straps 1070 may be configured to break when the pressure of the inflation gas in the inflatable curtain airbag 1020 reaches a predetermined level.
- the straps 1070 may be configured to permit the portion of the venting panel 1058 secured by the straps 1070 to unfold and transition the venting panel 1058 from a closed configuration to an open configuration.
- the venting panel 1058 may be secured in a closed configuration by one or more straps 1070 comprising tear seams.
- the first and second straps 1070 may be configured to break when the predetermined value is reached and thus aid in transitioning the venting panel 1058 from a closed configuration to an open configuration.
- the strap 1070 may be coupled to the venting panel 1058 by one or more of stitching, adhesives, clips, and/or other suitable fasteners.
- the tear seam of the strap 1070 may be configured to break when a vehicle occupant strikes a deployed inflatable curtain airbag 1020 in a collision and/or rollover event. When the tear seam breaks the opening 1066 may be configured to transition from a closed configuration to an open configuration.
- a first portion of the venting panel 1058 may be folded over a second portion of the venting panel 1058 to substantially seal the one or more openings 1066 .
- a first portion of the venting panel 1058 may be formed into a single fold
- a second portion of the venting panel 1058 may also be formed into both a first fold and a second fold
- the single fold may be disposed between the first and second folds to substantially seal the one or more openings 1066 .
- the folding configurations described above may further be secured by a tack stitch or other suitable fastener.
- the one or more venting panels 1058 can be configured to delay the inflation gas present in the one or more inflatable cushion segments 1042 from moving from the inflatable cushion segments 1042 to the second chamber 1038 when the one or more openings 1066 are in a closed configuration. In other instances, the venting panels 1058 can be configured to permit the inflation gas present in the inflatable cushion segments 1042 to move more easily from the inflatable cushion segments 1042 into the second chamber 1038 when the openings 1066 are in an open configuration.
- FIG. 15 depicts another embodiment of an inflatable curtain airbag 1120 such as the inflatable curtain airbag 1020 discussed above.
- Embodiments of the inflatable curtain airbag 1120 are compatible with embodiments of the assembly 100 discussed above.
- a first inflatable cushion segment 1142 of the inflatable curtain airbag 1120 is positioned proximally to the throat portion 1126 and below the throat liner 1127 .
- a second chamber 1138 is positioned distally to the first inflatable cushion segment 1142 .
- the venting panel 1158 defines a boundary between the first inflatable cushion segment 1142 and the second chamber 1138 .
- venting panels 1158 may be positioned in any suitable location in the inflatable curtain airbag 1120 . Placement of the second chamber 1138 and/or the venting panel 1158 can be made to impart desirable cushioning and venting characteristics to various portions of the inflatable curtain airbag 1120 .
- FIG. 16 depicts another embodiment of an inflatable curtain airbag 1220 such as the inflatable curtain airbags 1020 , 1120 discussed above.
- Embodiments of the inflatable curtain airbag 1220 are compatible with embodiments of the assembly 100 discussed above.
- the venting panel 1258 defines a boundary of one inflatable cushion segment 1242 at or adjacent to the edge 1254 of the inflatable curtain airbag 1220 .
- the venting panel 1258 is in fluid communication with an exterior of the inflatable curtain airbag 1220 .
- the one inflatable cushion segment 1242 may be configured to deflate more quickly than the remaining inflatable cushion segments 1242 of the first chamber 1236 .
- This embodiment may permit the inflation gas to egress from the interior of the inflatable curtain airbag 1220 to the exterior of the inflatable curtain airbag 1220 .
- the inflatable curtain airbag 1220 does not comprise a second chamber, like the second chamber 1138 . As discussed above, a variety of different locations in the inflatable curtain airbag 1220 are suitable for disposition of the vent panel 1258 .
- FIGS. 17A and 17B show another embodiment of an inflatable curtain airbag 1320 that can resemble the inflatable curtain airbags 720 , 1020 described above in certain respects, and that can be compatible with the assembly 100 .
- the inflatable curtain airbag 1320 of the illustrated embodiment includes a venting panel 1358 that defines a boundary between the first chamber 1336 and the second chamber 1338 .
- the venting panel 1358 comprises a loop 1372 at a proximal end of the venting panel 1358 .
- the loop 1372 can be configured to releasably couple the venting panel 1358 to an interior surface of the inflatable curtain airbag 1320 .
- the loop 1372 may be configured to transition from a coupled configuration (see FIG. 17A ) to an uncoupled configuration (see FIG. 17B ) when a volume of inflation gas in the first chamber 1336 reaches a predetermined value.
- the venting panel 1358 may delay the inflation gas from moving out of the first chamber 1336 into the second chamber 1338 when the loop 1372 is in a coupled configuration.
- the venting panel 1358 may be configured to permit the inflation gas to move more easily out of the first chamber 1336 and into the second chamber 1338 .
- the distal end of the venting panel 1358 at or adjacent to the loop 1372 may retract away from the interior surface of the inflatable curtain airbag 1320 to form a vent or opening in the interior of the inflatable curtain airbag 1320 for the passage of inflation gas from the first chamber 1336 to the second chamber 1338 .
- the loop 1372 may be releasably coupled to the interior surface of the inflatable curtain airbag 1320 by a fastener 1368 .
- the fastener 1368 can be selected from at least one of adhesives, hook-and-loop fasteners, tack stitching, tapes, and/or straps comprising tear seams.
- the venting panel 1358 may be configured to optimize the relative internal pressures of the first and second chambers 1336 , 1338 in a deployed inflatable curtain airbag 1320 .
- the inflatable cushion airbags 720 , 820 , 920 , 1020 , 1120 , 1220 , 1320 may be modified to be compatible with embodiments of the assembly 400 discussed above.
- Any methods disclosed herein include one or more steps or actions for performing the described method.
- the method steps and/or actions may be interchanged with one another.
- the order and/or use of specific steps and/or actions may be modified.
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Abstract
Description
- Airbags are often mounted to a vehicle and deploy so as to prevent an occupant from impacting vehicular structures and/or to prevent an occupant from being ejected from a vehicle in a collision. In some instances, the airbags can suffer from one or more drawbacks or may perform less than optimally in one or more respects. Embodiments disclosed herein provide improvement in performance of airbags.
- The written disclosure herein describes illustrative embodiments that are non-limiting and non-exhaustive. Reference is made to certain of such illustrative embodiments that are depicted in the figures, in which:
-
FIG. 1A is an elevation view of an embodiment of an inflatable curtain airbag assembly mounted within a vehicle, wherein the assembly is shown in a packaged configuration; -
FIG. 1B is another elevation view of the inflatable curtain airbag assembly ofFIG. 1A shown in a deployed configuration; -
FIG. 2 is an elevation view of an embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 3 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 4 is a graph comparing values of occupant acceleration and occupant displacement into an airbag; -
FIG. 5A is an elevation view of another embodiment of an inflatable curtain airbag assembly mounted within a vehicle, wherein the assembly is shown in a packaged configuration; -
FIG. 5B is another elevation view of the inflatable curtain airbag assembly ofFIG. 5A shown in a deployed configuration; -
FIG. 6 is an elevation view of an embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 5A and 5B ; -
FIG. 7 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 5A and 5B ; -
FIG. 8 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 9A is an enlarged cross-sectional view of the inflatable curtain airbag ofFIG. 8 taken alongline 9A-9A depicting an embodiment of a venting panel in a closed configuration; -
FIG. 9B is an enlarged cross-sectional view of the inflatable curtain airbag ofFIG. 8 taken alongline 9A-9A depicting the embodiment of the venting panel ofFIG. 9A in an open configuration; -
FIG. 10 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 11 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 12 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 13A is an enlarged cross-sectional view of the inflatable curtain airbag ofFIG. 12 taken alongline 13A-13A depicting an embodiment of a venting panel in a closed configuration; -
FIG. 13B is an enlarged cross-sectional view of the inflatable curtain airbag ofFIG. 12 taken alongline 13A-13A depicting the embodiment of the venting panel ofFIG. 13A in an open configuration; -
FIG. 14A is an enlarged cross-sectional view of the inflatable curtain airbag ofFIG. 12 taken alongline 13A-13A depicting another embodiment of a venting panel in a closed configuration; -
FIG. 14B is an enlarged cross-sectional view of the inflatable curtain airbag ofFIG. 12 taken alongline 13A-13A depicting the embodiment of the venting panel ofFIG. 14A in an open configuration; -
FIG. 15 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 16 is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B ; -
FIG. 17A is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B shown in a coupled configuration; -
FIG. 17B is an elevation view of another embodiment of an inflatable curtain airbag that is compatible with the inflatable curtain airbag assembly ofFIGS. 1A and 1B shown in an uncoupled configuration. - It will be readily understood that the components of the embodiments as generally described and illustrated in the figures herein could be arranged and designed in a wide variety of different configurations. Thus, the following more detailed description of various embodiments, as represented in the figures, is not intended to limit the scope of the present disclosure, but is merely representative of various embodiments. While the various aspects of the embodiments are presented in drawings, the drawings are not necessarily drawn to scale unless specifically indicated.
- The phrases “connected to” and “coupled to” are used in their ordinary sense, and are broad enough to refer to any suitable coupling or other form of interaction between two or more entities, including mechanical, fluid and thermal interaction. Two components may be coupled to each other even though they are not in direct contact with each other. The phrases “attached to” or “attached directly to” refer to interaction between two or more entities which are in direct contact with each other and/or are separated from each other only by a fastener of any suitable variety (e.g., mounting hardware or an adhesive). The phrase “fluid communication” is used in its ordinary sense, and is broad enough to refer to arrangements in which a fluid (e.g., a gas or a liquid) can flow from one element to another element when the elements are in fluid communication with each other.
- Inflatable airbag systems are widely used to reduce or minimize occupant injury in a collision scenario. Airbag modules have been installed at various locations within a vehicle, including, but not limited to, the steering wheel, the instrument panel, within the side doors or side seats, adjacent to the roof rail of the vehicle, in an overhead position, or at the knee or leg position. In the following disclosure, “airbag” generally refers to an inflatable curtain airbag or cushion, although the principles discussed may apply to other airbag types in other embodiments.
- Inflatable curtain airbags typically extend longitudinally within the vehicle and are usually coupled to or next to the roof rail of the vehicle. In an undeployed state, inflatable curtain cushions are typically rolled and/or folded, and may be retained in the undeployed configuration by being wrapped in a restraint at various attachment points at which the inflatable airbag is attached to the vehicle, or by being enclosed in a restraint, such as a sleeve or sock. In a deployed state, an inflatable curtain cushion may expand and burst free from the restraint to cover at least a portion of the side windows and one or more pillars of the vehicle. In some embodiments, inflatable curtain cushions may cover one or more of the A-, B-, C-, and D-pillars of a vehicle. For example, in some embodiments, the inflated curtain airbag may extend from the A-pillar to the C-pillar of the vehicle. In other embodiments, a deployed inflatable curtain cushion may extend from the A-pillar to the D-pillar of the vehicle.
- In a collision event, the inflatable curtain cushion may be inflated by an inflator and change conformation from being rolled and/or folded in the packaged state to being extended and/or inflated in a deployed state. In some arrangements, the amount of gas from the inflator that is retained within the inflatable curtain determines how hard or soft the cushioning of the curtain will be. Other factors may also affect the cushioning abilities of the inflatable curtain airbag.
- Some inflatable curtain cushions may be configured to serve dual functions of cushioning and ejection prevention. During a collision event, the curtain may cushion the head and upper body of an occupant, and during a roll-over event, the cushion may function to help retain the occupant within the vehicle. Inflatable curtain cushions help mitigate the risk of occupant ejection by forming a barrier between the occupant and the side windows.
- Some inflatable airbags have a throat portion that is in fluid communication with an inflator. The inflator may be configured to generate inflation gas in response to predetermined conditions. The inflatable airbag may comprise one or more voids or chambers for receiving the inflation gas. The throat liner may be positioned in the void of the inflatable airbag at the throat portion. In some instances the throat liner may extend beyond the throat portion along a longitudinal length of the inflatable airbag. Throat liners of any length and at any position within the void of the throat portion and/or the inflatable airbag are within the scope of this disclosure.
- In some embodiments, the throat liner may be made of the same material as the throat portion and the inflatable airbag. In other embodiments, the throat liner may be made of a different material than the throat portion and/or the inflatable cushion. The materials may have different strengths, melting temperatures, and other relevant properties.
- In some embodiments, the inflatable curtain airbags disclosed herein may be configured to vent inflation gas in a controlled or delayed manner from one or more chambers or segments of the airbag. Such controlled or delayed venting of the inflatable cushion segments may soften the cushioning provided by the deployed inflatable airbag. Inflatable curtain airbags with varying levels of hardness in different portions or segments of the airbag may be desirable.
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FIGS. 1A and 1B depict an embodiment of an inflatablecurtain airbag assembly 100 mounted within avehicle 50. InFIG. 1A , theassembly 100 is in a packaged configuration, whereas inFIG. 1B , theassembly 100 is in a deployed configuration. - With reference to
FIG. 1A , theassembly 100 can include an inflatable curtain airbag 120 (see alsoFIG. 1B ), which can be secured to thevehicle 50 in any suitable manner. Theinflatable curtain airbag 120 may also be referred to herein as a cushion or as an airbag. In the illustrated embodiment, theinflatable curtain airbag 120 is positioned at an interior of arestraint 102 so as to be retained in a packaged configuration. Therestraint 102 may be of any suitable variety, such as one or more straps, tethers, socks, or sleeves. In the illustrated embodiment, therestraint 102 comprises a sleeve that extends along substantially a full length of theinflatable curtain airbag 120, such that a majority of theinflatable curtain airbag 120 is obscured from view by the sleeve inFIG. 1A . - The
assembly 100 can be attached to thevehicle 50 in any suitable manner. For example, in some embodiments, theassembly 100 includes one ormore fastening assemblies 110 that are configured to secure one or more of theinflatable curtain airbag 120 and therestraint 102 to thevehicle 50. Theassembly 100 can be mounted inside thevehicle 50 adjacent to a roof of the vehicle, such as to aroof rail 52. In the illustrated embodiment, eachfastening assembly 110 includes a tether orstrap 116 that is secured to mounting hardware, such as atab 112 that is secured to theroof rail 52 via afastener 114, such as a bolt. Any other suitable fastening arrangement is contemplated. Eachstrap 116 may be coupled with one or more of theinflatable curtain airbag 120 and therestraint 102 in any suitable manner. - A forward end of the
assembly 100 can include astrap 104, which may be secured to the vehicle in any suitable manner. For example, in the illustrated embodiment, thestrap 104 is attached to a lower end of an A-pillar 62. As shown inFIG. 1B , thestrap 104 can be attached to aforward end 124 of theinflatable curtain airbag 120. Anupper end 122 of theinflatable curtain airbag 120 can be attached to thestraps 116. In some embodiments, thestraps 116 are sewn to theinflatable curtain airbag 120. In other embodiments, thestraps 116 may be integrally formed with theinflatable curtain airbag 120, and may extend from one or more panels of theinflatable cushion 120. - With continued reference to
FIG. 1A , the assembly can further include aninflator 118, which may be positioned within athroat 126 of theinflatable curtain airbag 120. The inflator 118 can be anchored to theroof rail 52, and may be of any suitable variety. In some embodiments, theinflator 118 comprises either a pyrotechnic device or a stored gas inflator. The inflator 118 can be in electronic communication with vehicle sensors which are configured to detect vehicle collisions and/or rollovers. Upon detection of predetermined conditions, the sensors can activate theinflator 118 and theinflatable curtain airbag 120 may be rapidly inflated. - With reference to
FIGS. 1A and 1B , theinflatable curtain airbag 120 can be configured to cover various structures of thevehicle 50 when deployed. For example, in some embodiments, at least a portion of the deployedinflatable curtain airbag 120 can cover one or more of the A-pillar 62, a B-pillar 64, and a C-pillar 66, and/or one ormore side windows 70. The illustrated embodiment is configured to cover the B-pillar 64, and each of theside windows 70. - With reference to
FIG. 1B , theinflatable curtain airbag 120 can define various portions that provide different amounts of cushioning relative to the vehicle structures. In particular, theinflatable curtain airbag 120 can include various inflatable chambers, cells, or cushion segments that are configured to be filled with inflation gases in order to cushion a vehicle occupant during a collision event. Theinflatable cushion segments 142 can be configured to deploy at strategic areas at which a vehicle occupant may benefit most from the cushioning. The illustrated embodiment includes a plurality ofinflatable cushion segments 142 that are in fluid communication with an inflationgas delivery channel 140. In some embodiments, inflation gases may be retained within a giveninflatable cushion segment 142 to maintain theinflatable cushion segment 142 in an inflated or filled configuration, even when a vehicle occupant presses against theinflatable cushion segment 142. Such an arrangement can allow theinflatable cushion segment 142 to provide a desired amount of protection to the vehicle occupant. - In some embodiments, the
inflatable curtain airbag 120 can include one or morenon-inflatable regions 144, one or more of which may be positioned between adjacentinflatable cushion segments 142 or at an interior of an inflatable cushion segment 142 (e.g., so as to be encompassed by an inflatable cushion segment 142). - In various embodiments, at least a portion of one or more of the
inflatable cushion segments 142 and thenon-inflatable regions 144 can be defined by one or more boundary seams 150. The one ormore boundary seams 150 may be formed in any suitable manner. For example, in some embodiments, the one ormore boundary seams 150 may comprise one or more of stitches, welds (e.g., radiofrequency welds), and/or adhesives. In other or further embodiments, the boundary seams 150 may be woven portions that are formed via one-piece weaving techniques. As further discussed below, in some embodiments, the boundary seams 150 may join together two or more pieces of fabric, such as afront face 132 and arear face 134. In some embodiments, the one ormore boundary seams 150 are substantially airtight so as to be able to retain inflation gas within a giveninflatable cushion segment 142. The one ormore boundary seams 150 can be said to fluidly isolate adjacentinflatable cushion segments 142 from each other. In other embodiments, the one ormore boundary seams 150 may not be airtight, but may instead resist egress of gases from aninflatable cushion segment 142. - The shapes of the
inflatable curtain airbag 120 and its various components, such as thesegments 142, that are depicted inFIG. 1B are not necessarily limiting. These shapes may be altered, such as to accommodate differently shaped vehicles. In some embodiments, the inflatedinflatable curtain airbag 120 is configured to fit within the side window wells ofvehicle 50. Theinflatable curtain airbag 120 may comprise a contiguous piece of material manufactured using a one-piece woven technique, in some embodiments, or in other or further embodiments, may be manufactured by cutting and sewing separate pieces of material (e.g., nylon fabric) together. For example, the front and rear faces 132, 134 may be formed from separate sheets of material that are joined together. In other embodiments, the front and rear faces 132, 134 may be formed from a unitary piece of material. - As can be appreciated from
FIGS. 1A and 1B , when theinflatable curtain airbag 120 is in the packaged configuration, all components of theinflatable curtain airbag 120 can be at an interior of therestraint 102. In the illustrated embodiment, therestraint 102 is a sleeve that covers an entirety of theinflatable curtain airbag 120. However, in other embodiments, therestraint 102 may merely comprise a plurality of straps, and each strap may encompass a portion of various components of theinflatable curtain airbag 120, such as, for example, portions of the inflationgas delivery channel 140. -
FIG. 2 depicts another embodiment of aninflatable curtain airbag 220 that can resemble theinflatable curtain airbag 120 described above in certain respects, and that can be compatible with theassembly 100. Accordingly, like features are designated with like reference numerals, with the leading digits incremented to “2.” Relevant disclosure set forth above regarding similarly identified features thus may not be repeated hereafter. Moreover, specific features of theinflatable curtain airbag 220 may not be shown or identified by a reference numeral in the drawings or specifically discussed in the written description that follows. However, such features may clearly be the same, or substantially the same, as features depicted in other embodiments and/or described with respect to such embodiments. Accordingly, the relevant description of such features applies equally to the features of theinflatable curtain airbag 220. Any suitable combination of the features and variation of the same described with respect to theinflatable curtain airbag 120 can be employed with theinflatable curtain airbag 220, and vice versa. This pattern of disclosure applies equally to further embodiments depicted in subsequent figures and described hereafter, wherein the leading digits may be further incremented. - Referring to
FIG. 2 , theinflatable curtain airbag 220 has a longitudinal orientation and includes athroat portion 226 at a proximal end. As used herein, the terms proximal and distal refer to proximity to theinflator 118 and/or direction of inflation gas flow during deployment, where more proximally oriented features are closer to theinflator 118 and/or contact inflation gases sooner than do more distally oriented features. Thethroat portion 226 may be configured to receive at least a portion of an inflator 118 therein and/or to be coupled with theinflator 118. As illustrated, theinflatable curtain airbag 220 includes afront face 232 and arear face 234 that meet at anedge 254. Thefront face 232 and therear face 234 cooperate to define a void or chamber for receiving an inflation gas from theinflator 118. In the illustrated embodiment, theinflatable curtain airbag 220 further comprises aboundary seam 250 adjacent to theedge 254 of theinflatable curtain airbag 220. Theboundary seam 250 also defines the one or moreinflatable cushion segments 242 andnon-inflatable regions 244. In the illustrated embodiment, theinflatable cushions segments 242 are in fluid communication with each other. In some embodiments, theinflatable cushion segments 242 may not be in fluid communication with one another, and in other embodiments, only a portion of a total number ofinflatable cushion segments 242 may be in fluid communication with one another. The one ormore boundary seams 250 may fluidly seal the void of theinflatable cushion 220. In yet other embodiments, the one ormore boundary seams 250 may not be airtight but may instead resist egress of gasses from the void of theinflatable cushion 220. - As illustrated, the
inflatable curtain airbag 220 further includes athroat liner 227 in fluid communication with and disposed within at least a portion of thethroat portion 226. In some embodiments, thethroat liner 227 may comprise an aperture for passage of the inflation gas into theinflatable curtain airbag 220. In other embodiments, thethroat liner 227 may comprise two panels that cooperate to form the aperture for passage of the inflation gas into theinflatable curtain airbag 220. In yet other embodiments, thethroat liner 227 may be formed from a unitary piece of material. For example, thethroat liner 227 may be woven by a one-piece woven technique. - The
throat liner 227 may also be configured to receive at least a portion of the inflator 118 therein and/or to be coupled with theinflator 118. In the illustrated embodiment, thethroat liner 227 comprises anopening 228 at a position distal to theinflator 118 and avent 230 spaced along a longitudinal length of thethroat liner 227. In some embodiments, thethroat liner 227 can comprise one ormore vents 230 spaced along the longitudinal length of thethroat liner 227. The one ormore vents 230 and/oropenings 228 can be configured to selectively distribute the inflation gas into various portions and/or segments of theinflatable curtain airbag 220. In the illustrated embodiment, thethroat liner 227 extends in the longitudinal orientation of theinflatable curtain airbag 220 distally from thethroat portion 226.Throat liners 227, however, of various lengths and disposed at various positions within theinflatable curtain airbag 220 are also within the scope of this disclosure. - Referring again to
FIG. 2 , theinflatable curtain airbag 220 comprises two chambers, afirst chamber 236 and asecond chamber 238, wherein a volume of thefirst chamber 236 is greater than a volume of thesecond chamber 238. As shown, thefirst chamber 236 extends in a longitudinal orientation along about two-thirds of a length of theinflatable curtain airbag 220 and thesecond chamber 238 extends in a longitudinal orientation along about one-third of the length of theinflatable curtain airbag 220. In some embodiments, the relative volumes and/or lengths of the first andsecond chambers second chamber 238 may be positioned at or adjacent to a C-pillar 66 of avehicle 50. Alternatively, thesecond chamber 238 may be positioned rearward to a B-pillar 64 of avehicle 50. Each of the first andsecond chambers inflatable cushion segment 242. Additionally, both of the first andsecond chambers throat liner 227. In some embodiments, the first andsecond chambers inflatable curtain airbag 220. For example, the first andsecond chambers throat portion 226 in embodiments that lack athroat liner 227. As illustrated, thefirst chamber 236 comprises threeinflatable cushion segments 242, and thesecond chamber 238 comprises oneinflatable cushion segment 242. In some embodiments, thefirst chamber 236 may comprise more or less than threeinflatable cushion segments 242. Likewise, thesecond chamber 238 may comprise more or less than oneinflatable cushion segment 242. The configuration, number, and/or positioning of theinflatable cushion segments 242 can be designed so as to provide theinflatable curtain airbag 220 with desired protective and cushioning characteristics. - As illustrated, the
second chamber 238 further comprises a substantially U-shapedtortuous vent 237, wherein thetortuous vent 237 is in fluid communication with an exterior of theinflatable curtain airbag 220. Thetortuous vent 237 is also in fluid communication with theinflatable cushion segment 242 of thesecond chamber 238. Thetortuous vent 237 may comprise a plurality of loops and/or turns. In other embodiments, thetortuous vent 237 may be substantially C-shaped, S-shaped, circuitous, or otherwise shaped. The shape of the tortuous vent may be configured to delay venting of the inflation gas from the void of theinflatable curtain airbag 220. - The dashed arrows in
FIG. 2 depict possible paths of the inflation gas as the inflation gas enters theinflatable curtain airbag 220 during deployment. A first portion of the inflatable gas may enter thefirst chamber 236 and second portion of the inflation gas may enter thesecond chamber 238. In the illustrated embodiment, the first portion of the inflation gas comprises a greater volume than the second portion of the inflation gas. As the inflation gas inflates theinflatable cushion segments 242 the volume of the inflation gas in theinflatable curtain airbag 220 may reach a predetermined value. In some embodiments, the predetermined value may be reached when the volume of inflation gas in at least one of the first andsecond chambers tortuous vent 237 may be configured to permit or allow passage of inflation gas through at least a portion of a length of thetortuous vent 237. In some embodiments, the predetermined value may be set to be reached when an occupant strikes thesecond chamber 238 in a collision event. - The
tortuous vent 237 may also be configured such that approximately when the one or moreinflatable cushion segments 242 of thesecond chamber 238 are fully inflated, the inflation gas may begin to egress from a distal end of thetortuous vent 237, and the inflation gas may begin to further egress to an exterior of theinflatable curtain airbag 220. Theinflatable curtain airbag 220 and/or thetortuous vent 237 may also be configured such that the inflation gas may exit thetortuous vent 237 at other desired time points. -
FIG. 3 depicts another embodiment of aninflatable curtain airbag 320 such as theinflatable curtain airbag 220 discussed above. Embodiments of theinflatable curtain airbag 320 are compatible with embodiments of theassembly 100 discussed above. As shown inFIG. 3 ,inflatable curtain airbag 320 comprises afirst chamber 336 and asecond chamber 338. Thesecond chamber 338 comprises aninflatable cushion segment 342 in fluid communication with both of athroat liner 327 and atortuous vent 337. As illustrated, thetortuous vent 337 is in fluid communication with athird chamber 339. Thus,tortuous vent 337 can vent inflation gas internally into thethird chamber 339. In this embodiment, the inflation gas may not egress to the exterior of theinflatable cushion segment 320. Embodiments of theinflatable curtain airbags 320 may be desirable in vehicles where it is advantageous to contain the inflation gas within theinflatable curtain airbag 320. -
FIG. 4 is a graph comparing values of vehicle occupant acceleration and vehicle occupant displacement into an airbag. The graph compares these values in two embodiments, including a baseline airbag embodiment and a delayed vent airbag embodiment. The dotted line depicts values associated with the baseline airbag embodiment, which is a sealed airbag that does not comprise a vent. The solid line depicts values associated with the delayed vent airbag embodiment, which is an airbag with a delayed vent (e.g., such as tortuous vent 237) as disclosed herein. The baseline airbag may be stiffer, when fully deployed, than an airbag comprising a vent. As depicted inFIG. 3 , the baseline airbag has a higher magnitude of acceleration than the delayed vent airbag. Further, the delayed vent may reduce the magnitude of acceleration of the delayed vent airbag as compared to the baseline airbag, and a delayed vent may also increase the magnitude of occupant displacement into the airbag as compared to the baseline airbag. Such changes in magnitude may result in improved cushioning abilities of the airbag. -
FIGS. 5A and 5B depict another embodiment of an inflatablecurtain airbag assembly 400 mounted within avehicle 50 such as the inflatablecurtain airbag assembly 100 discussed above. InFIG. 5A , theassembly 400 is in a packaged configuration, whereas inFIG. 5B , theassembly 400 is in a deployed configuration. - The
assembly 400 can further include aninflator 418, which may be positioned within athroat portion 426 of theinflatable curtain airbag 420. The inflator 418 can be anchored to theroof rail 52, and may be of any suitable variety. Whereas theinflator 118 is anchored to thevehicle 50 adjacent to the C-pillar 66 forming an “end-fill” configuration, theinflator 418 is anchored to thevehicle 50 rearward of the B-pillar 64 forming a “mid-fill” configuration. As described forinflator 118, upon detection of predetermined conditions, vehicle sensors can activate theinflator 418 and theinflatable curtain airbag 420 may be rapidly inflated. -
FIGS. 6 and 7 depict two additional embodiments ofinflatable curtain airbags inflatable curtain airbags Inflatable curtain airbags assembly 400. - Referring to
FIG. 6 , theinflatable curtain airbag 520 has a longitudinal orientation and includes a throat portion 526 at a middle portion of theinflatable curtain airbag 520. Theinflatable curtain airbag 520 includes athroat liner 527 in fluid communication with and disposed within at least a portion of the throat portion 526. In the illustrated embodiment, thethroat liner 527 comprises twoopenings 528 at positions distal to theinflator 418. As shown, thethroat liner 527 extends in the longitudinal orientation of theinflatable curtain airbag 520 distally from the throat portion 526. - As in
inflatable curtain airbags inflatable curtain airbag 520 comprises two chambers, afirst chamber 536 and asecond chamber 538. As illustrated, thesecond chamber 538 further comprises a substantially U-shapedtortuous vent 537, wherein thetortuous vent 537 is in fluid communication with an exterior of theinflatable curtain airbag 520. Thetortuous vent 537 is also in fluid communication with theinflatable cushion segment 542 of thesecond chamber 538. - The dashed arrows in
FIG. 6 depict possible paths of the inflation gas as the inflation gas enters theinflatable curtain airbag 520 during deployment. A first portion of the inflatable gas may enter thefirst chamber 536 and second portion of the inflation gas may enter thesecond chamber 538. In the illustrated embodiment, the first portion of the inflation gas comprises a greater volume than the second portion of the inflation gas. As the inflation gas inflates the plurality ofinflatable cushion segments 542 the volume of the inflation gas in thesecond chamber 538 may reach a predetermined value. When the volume of the inflation gas reaches the predetermined value, thetortuous vent 537 may be configured to permit or allow passage of the inflation gas through at least a portion of a length of thetortuous vent 537. - Referring to
FIG. 7 ,inflatable curtain airbag 620 also comprises afirst chamber 636 and asecond chamber 638. Thesecond chamber 638 comprises aninflatable cushion segment 642 in fluid communication with both of athroat liner 627 and atortuous vent 637. As illustrated, thetortuous vent 637 is in fluid communication with athird chamber 639. Thus,tortuous vent 637 can vent inflation gas internally into thethird chamber 639. In this embodiment, the inflation gas may not egress to the exterior of theinflatable cushion segment 620, rather the inflatable gas egresses into a void of thethird chamber 639. - Another embodiment of an
inflatable curtain airbag 720 such as theinflatable curtain airbags FIG. 8 . Embodiments of theinflatable curtain airbag 720 are compatible with embodiments of theassembly 100 discussed above. Theinflatable curtain airbag 720 has a longitudinal orientation and includes athroat portion 726 at a proximal end. Thethroat portion 726 may be configured to receive at least a portion of an inflator 118 therein and/or to be coupled with theinflator 118. As depicted,inflatable curtain airbag 720 also comprises athroat liner 727 in fluid communication with and disposed within at least a portion of thethroat portion 726. Further, thethroat liner 727 extends in the longitudinal orientation of theinflatable curtain assembly 720 distally from thethroat portion 726. As described above,other throat liner 727 configurations are also contemplated. -
FIG. 8 depicts aninflatable curtain airbag 720 including afirst chamber 736 and asecond chamber 738 wherein a volume of the first chamber is greater than a volume of thesecond chamber 738. As described above, however, other configurations of the first andsecond chambers first chamber 736 can comprise a plurality ofinflatable cushion segments 742 that are in fluid communication with thethroat liner 727. Thesecond chamber 738 can be configured to receive inflation gas from one or more of theinflatable cushion segments 742. In some embodiments, thesecond chamber 738 can aid in controlling or maintaining an internal pressure of theinflatable curtain airbag 720. For example, one or moresecond chambers 738 may aid in maintaining the internal pressure below a predetermined value. In the illustrated embodiment, thesecond chamber 738 is isolated from each of theinflatable cushion segments 742, thethroat liner 727, thethroat portion 726, and the inflator 118 by aventing panel 758. Further, theinflatable curtain airbag 720 comprises onesecond chamber 738 distally disposed in theinflatable curtain airbag 720 relative to each of theventing panel 758, theinflatable cushion segments 742, and thethroat portion 726. Theinflatable curtain airbag 720, as illustrated, comprises oneventing panel 758 extending in a substantially transverse direction relative to the longitudinal orientation of theinflatable curtain airbag 720. - In other embodiments, there may be more than one
second chamber 738 and/or more than oneventing panel 758. In embodiments, the one ormore venting panels 758 may define a boundary of one or more of theinflatable cushion segments 742. The one or moresecond chambers 738 and/or ventingpanels 758 may also be disposed at any suitable position in theinflatable curtain airbag 720, as described more fully below in other embodiments. - In the illustrated embodiment, the venting
panel 758 comprises a plurality ofslits 760 or openings.FIGS. 9A and 9B are enlarged cross-sectional views of the inflatable curtain airbag ofFIG. 8 taken alongline 9A-9A depicting an embodiment of aventing panel 758. The ventingpanel 758 ofFIG. 9A is in a closed configuration and theventing panel 758 ofFIG. 9A in an open configuration. Theslits 760 can be configured to transition from a closed configuration (as inFIG. 9A ) to an open configuration (as inFIG. 9B ) when a volume of inflation gas in thefirst chamber 736 reaches a predetermined value. In other embodiments, theslits 760 can be configured to transition from a closed configuration to an open configuration when an interior pressure of thefirst chamber 736 reaches a predetermined value. The size and/or the shape of the slits can be designed such that the slits transition from a closed configuration to an open configuration when the pressure differential across the slits reaches a predetermined value. For example, slits with smaller dimensions may require a greater pressure differential across the slits to transition the slits from a closed configuration to an open configuration than may be required for slits with larger dimensions. In another embodiment, the predetermined value may be reached when a vehicle occupant strikes a deployedinflatable curtain airbag 720 during a collision event. - Referring again to
FIG. 8 , in some embodiments, the ventingpanel 758 may define the boundary between thesecond chamber 738 andinflatable cushion segment 742 a, andinflatable cushion segment 742 a may be configured to deflate more quickly than the remaininginflatable cushion segments 742 of thefirst chamber 736. Additionally, the ventingpanel 758 may prevent the inflation gas from moving from the inflatable cushion segments into thesecond chamber 738 when theslits 760 are in a closed configuration. Also, the ventingpanel 758 may permit the inflation gas to move more easily from theinflatable cushion segments 742 into thesecond chamber 738 when theslits 760 are in an open configuration. -
FIG. 10 depicts another embodiment of aninflatable curtain airbag 820 such as theinflatable curtain airbag 720 discussed above. Embodiments of theinflatable curtain airbag 820 are compatible with embodiments ofassembly 100 discussed above. A firstinflatable cushion segment 842 of theinflatable curtain airbag 820 is positioned proximally to thethroat portion 826 and below thethroat liner 827. Asecond chamber 838 is positioned distally to the firstinflatable cushion segment 842. The ventingpanel 858 defines a boundary between the firstinflatable cushion segment 842 and thesecond chamber 838. In other embodiments, ventingpanels 858 may be positioned in any suitable location in theinflatable curtain airbag 820, as further discussed below. Placement of thesecond chamber 838 and/or theventing panel 858 can be made to impart desirable cushioning and venting characteristics to theinflatable curtain airbag 820. -
FIG. 11 depicts yet another embodiment of aninflatable curtain airbag 920, such as theinflatable curtain airbags inflatable curtain airbag 920 are compatible with embodiments of theassembly 100 discussed above. In the illustrated embodiment, the ventingpanel 958 defines a boundary of oneinflatable cushion segment 942 at or adjacent to theedge 954 of theinflatable curtain airbag 920. As illustrated, the ventingpanel 958 is in fluid communication with an exterior of theinflatable curtain airbag 920. In embodiments, the oneinflatable cushion segment 942 may be configured to deflate more quickly than the remaininginflatable cushion segments 942 of thefirst chamber 936. This embodiment may permit the inflation gas to egress from the interior of theinflatable curtain airbag 920 to the exterior of theinflatable curtain airbag 920. Theinflatable curtain airbag 920 does not comprise a second chamber, like thesecond chamber 838. As discussed above, a variety of different locations in theinflatable curtain airbag 920 are suitable for disposition of thevent panel 958. -
FIG. 12 shows another embodiment of aninflatable curtain airbag 1020 that can resemble theinflatable curtain airbags assembly 100. Whereas, the ventingpanels inflatable curtain airbags slits 760, theventing panel 1058 ininflatable curtain airbag 1020 comprises anopening 1066. In other embodiments, ventingpanel 1058 may comprise more than oneopening 1066. Theopening 1066 may be retained in a closed configuration by at least one fold of a portion of theventing panel 1058. The fold may be secured in place by afastening mechanism 1068. Thefastening mechanism 1068 may comprise one or more of stitching, adhesives, clips, welding, and/or other suitable fasteners. - In embodiments, the
opening 1066 can be configured to transition from a closed configuration to an open configuration when a volume of inflation gas in thefirst chamber 1036 reaches a predetermined value. In other embodiments, theopening 1066 may be configured to transition from a closed configuration to an open configuration when an internal pressure of the inflation gas in thefirst chamber 1036 reaches a predetermined value. For example, theopening 1066 can be configured to open when the pressure differential across theopening 1066 approaches, reaches, or surpasses a predetermined value. In one embodiment, the predetermined value may be reached when a vehicle occupant strikes a deployedinflatable curtain airbag 1020 in a collision event. - In other embodiments, the
venting panel 1058 may delay the inflation gas from moving out of thefirst chamber 1036 into thesecond chamber 1038 when theopening 1066 is in a closed configuration, and theventing panel 1058 may permit the inflation gas to move more easily out of thefirst chamber 1036 into thesecond chamber 1038 when theopening 1066 transitions to an open configuration. -
FIGS. 13A and 13B are enlarged cross-sectional views of theinflatable curtain airbag 1020 ofFIG. 12 taken alongline 13A-13A.FIG. 13A depicts an embodiment of aventing panel 1058 in a closed configuration, andFIG. 13B depicts the embodiment of theventing panel 1058 ofFIG. 13A in an open configuration. In the embodiment illustrated inFIG. 13A , thefastening mechanism 1068 may comprise a tack stitch. InFIG. 13A theventing panel 1058 is depicted as being configured into a fold. As illustrated, the fold can be secured by a tack stitch, wherein the opening 1066 (see alsoFIG. 13B ) is substantially sealed. As shown inFIG. 13B , the tack stitch may be configured to break when the volume of inflation gas in thefirst chamber 1036 reaches the predetermined value. In another embodiment, the tack stitch may be configured to break when the pressure of the inflation gas in thefirst chamber 1036 reaches the predetermined level. In embodiments, the tack stitch may be configured to permit the portion of theventing panel 1058 secured by the tack stitch to unfold and transition theventing panel 1058 from a closed configuration to an open configuration. -
FIGS. 14A and 14B are enlarged cross-sectional views of theinflatable curtain airbag 1020 ofFIG. 12 taken alongline 13A-13A depicting another embodiment of aventing panel 1058.FIG. 14A depicts theventing panel 1058 in a closed configuration andFIG. 14B depicts the embodiment of theventing panel 1058 ofFIG. 8A in an open configuration. As depicted inFIGS. 14A and 14B , the fastening mechanism may comprise one ormore straps 1070. In some embodiments, thestraps 1070 may comprise a tear seam wherein the tear seam is configured to break when the volume of inflation gas in thefirst chamber 1036 reaches a predetermined value. In another embodiment, thestraps 1070 may be configured to break when the pressure of the inflation gas in theinflatable curtain airbag 1020 reaches a predetermined level. In embodiments, thestraps 1070 may be configured to permit the portion of theventing panel 1058 secured by thestraps 1070 to unfold and transition theventing panel 1058 from a closed configuration to an open configuration. Theventing panel 1058 may be secured in a closed configuration by one ormore straps 1070 comprising tear seams. For example, there may be afirst strap 1070 coupled to a first side of theventing panel 1058 and asecond strap 1070 coupled to the second side of theventing panel 1058. The first andsecond straps 1070 may be configured to break when the predetermined value is reached and thus aid in transitioning theventing panel 1058 from a closed configuration to an open configuration. In some embodiments thestrap 1070 may be coupled to theventing panel 1058 by one or more of stitching, adhesives, clips, and/or other suitable fasteners. In one example, the tear seam of thestrap 1070 may be configured to break when a vehicle occupant strikes a deployedinflatable curtain airbag 1020 in a collision and/or rollover event. When the tear seam breaks theopening 1066 may be configured to transition from a closed configuration to an open configuration. - In embodiments, a first portion of the
venting panel 1058 may be folded over a second portion of theventing panel 1058 to substantially seal the one ormore openings 1066. In other embodiments, a first portion of theventing panel 1058 may be formed into a single fold, a second portion of theventing panel 1058 may also be formed into both a first fold and a second fold, and the single fold may be disposed between the first and second folds to substantially seal the one ormore openings 1066. The folding configurations described above may further be secured by a tack stitch or other suitable fastener. - Referring again to
FIG. 12 , in some instances, the one ormore venting panels 1058 can be configured to delay the inflation gas present in the one or more inflatable cushion segments 1042 from moving from the inflatable cushion segments 1042 to thesecond chamber 1038 when the one ormore openings 1066 are in a closed configuration. In other instances, the ventingpanels 1058 can be configured to permit the inflation gas present in the inflatable cushion segments 1042 to move more easily from the inflatable cushion segments 1042 into thesecond chamber 1038 when theopenings 1066 are in an open configuration. -
FIG. 15 depicts another embodiment of aninflatable curtain airbag 1120 such as theinflatable curtain airbag 1020 discussed above. Embodiments of theinflatable curtain airbag 1120 are compatible with embodiments of theassembly 100 discussed above. A firstinflatable cushion segment 1142 of theinflatable curtain airbag 1120 is positioned proximally to thethroat portion 1126 and below thethroat liner 1127. Asecond chamber 1138 is positioned distally to the firstinflatable cushion segment 1142. Theventing panel 1158 defines a boundary between the firstinflatable cushion segment 1142 and thesecond chamber 1138. In other embodiments, ventingpanels 1158 may be positioned in any suitable location in theinflatable curtain airbag 1120. Placement of thesecond chamber 1138 and/or theventing panel 1158 can be made to impart desirable cushioning and venting characteristics to various portions of theinflatable curtain airbag 1120. -
FIG. 16 depicts another embodiment of aninflatable curtain airbag 1220 such as theinflatable curtain airbags inflatable curtain airbag 1220 are compatible with embodiments of theassembly 100 discussed above. In the illustrated embodiment, theventing panel 1258 defines a boundary of oneinflatable cushion segment 1242 at or adjacent to theedge 1254 of theinflatable curtain airbag 1220. As illustrated, theventing panel 1258 is in fluid communication with an exterior of theinflatable curtain airbag 1220. In embodiments, the oneinflatable cushion segment 1242 may be configured to deflate more quickly than the remaininginflatable cushion segments 1242 of thefirst chamber 1236. This embodiment may permit the inflation gas to egress from the interior of theinflatable curtain airbag 1220 to the exterior of theinflatable curtain airbag 1220. Theinflatable curtain airbag 1220 does not comprise a second chamber, like thesecond chamber 1138. As discussed above, a variety of different locations in theinflatable curtain airbag 1220 are suitable for disposition of thevent panel 1258. -
FIGS. 17A and 17B show another embodiment of aninflatable curtain airbag 1320 that can resemble theinflatable curtain airbags assembly 100. Theinflatable curtain airbag 1320 of the illustrated embodiment includes aventing panel 1358 that defines a boundary between thefirst chamber 1336 and thesecond chamber 1338. Theventing panel 1358 comprises aloop 1372 at a proximal end of theventing panel 1358. In embodiments, theloop 1372 can be configured to releasably couple theventing panel 1358 to an interior surface of theinflatable curtain airbag 1320. Additionally, theloop 1372 may be configured to transition from a coupled configuration (seeFIG. 17A ) to an uncoupled configuration (seeFIG. 17B ) when a volume of inflation gas in thefirst chamber 1336 reaches a predetermined value. - In some embodiments, the
venting panel 1358 may delay the inflation gas from moving out of thefirst chamber 1336 into thesecond chamber 1338 when theloop 1372 is in a coupled configuration. When theloop 1372 is in an uncoupled configuration, theventing panel 1358 may be configured to permit the inflation gas to move more easily out of thefirst chamber 1336 and into thesecond chamber 1338. - The distal end of the
venting panel 1358 at or adjacent to theloop 1372 may retract away from the interior surface of theinflatable curtain airbag 1320 to form a vent or opening in the interior of theinflatable curtain airbag 1320 for the passage of inflation gas from thefirst chamber 1336 to thesecond chamber 1338. Theloop 1372 may be releasably coupled to the interior surface of theinflatable curtain airbag 1320 by afastener 1368. In embodiments thefastener 1368 can be selected from at least one of adhesives, hook-and-loop fasteners, tack stitching, tapes, and/or straps comprising tear seams. As described above, theventing panel 1358 may be configured to optimize the relative internal pressures of the first andsecond chambers inflatable curtain airbag 1320. - In embodiments, the
inflatable cushion airbags assembly 400 discussed above. - Any methods disclosed herein include one or more steps or actions for performing the described method. The method steps and/or actions may be interchanged with one another. In other words, unless a specific order of steps or actions is required for proper operation of the embodiment, the order and/or use of specific steps and/or actions may be modified.
- Reference throughout this specification to “an embodiment” or “the embodiment” means that a particular feature, structure or characteristic described in connection with that embodiment is included in at least one embodiment. Thus, the quoted phrases, or variations thereof, as recited throughout this specification are not necessarily all referring to the same embodiment.
- Similarly, it should be appreciated that in the above description of embodiments, various features are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure. This method of disclosure, however, is not to be interpreted as reflecting an intention that any claim require more features than those expressly recited in that claim. Rather, as the following claims reflect, inventive aspects lie in a combination of fewer than all features of any single foregoing disclosed embodiment. Thus, the claims following this Detailed Description are hereby expressly incorporated into this Detailed Description, with each claim standing on its own as a separate embodiment. This disclosure includes all permutations of the independent claims with their dependent claims.
- Recitation in the claims of the term “first” with respect to a feature or element does not necessarily imply the existence of a second or additional such feature or element. Elements recited in means-plus-function format are intended to be construed in accordance with 35 U.S.C. §112(f). It will be apparent to those having skill in the art that changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention. Embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows.
Claims (36)
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US14/480,292 US9205800B2 (en) | 2013-03-15 | 2014-09-08 | Delayed venting in a curtain airbag |
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Also Published As
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US20140375034A1 (en) | 2014-12-25 |
US8851508B1 (en) | 2014-10-07 |
US9205800B2 (en) | 2015-12-08 |
WO2014149210A1 (en) | 2014-09-25 |
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