Source: http://www.google.com/patents/US20070108750?dq=%22melissa+white%22
Timestamp: 2016-07-26 07:29:56
Document Index: 93004020

Matched Legal Cases: ['art, 1111', 'art 1111', 'art 1112', 'arts 1111', 'art 1111', 'art 1112', 'arts 1111', 'art 1111', 'art 1112', 'arts 1111', 'arts 1111', 'art 1111', 'art 1112', 'art 1111', 'art 1112', 'art 1111', 'art 1112', 'arts 1111', 'arts 1111', 'art 1111', 'art 1112', 'art 1111', 'art 1112', 'arts 1111']

Patent US20070108750 - Passive airbag venting - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsAn occupant protection apparatus comprises an inflatable airbag with a panel, the panel including a first vent opening that permits inflation fluid to escape out of the airbag; and a valve sheet including a second vent opening movable relative to the first vent opening, the valve sheet having opposite...http://www.google.com/patents/US20070108750?utm_source=gb-gplus-sharePatent US20070108750 - Passive airbag ventingAdvanced Patent SearchPublication numberUS20070108750 A1Publication typeApplicationApplication numberUS 11/523,810Publication dateMay 17, 2007Filing dateSep 20, 2006Priority dateSep 21, 2005Also published asDE102006044707A1, US8020889, US8152199, US20110079988Publication number11523810, 523810, US 2007/0108750 A1, US 2007/108750 A1, US 20070108750 A1, US 20070108750A1, US 2007108750 A1, US 2007108750A1, US-A1-20070108750, US-A1-2007108750, US2007/0108750A1, US2007/108750A1, US20070108750 A1, US20070108750A1, US2007108750 A1, US2007108750A1InventorsBarney Bauer, Moe Boumarafi, Jerome BOSCH, Jonathan Clarke, Nate Dennis, James Karlow, Amy Klinkenberger, Vivekananadhan Maripudi, Michael Scavnicky, Jamie Perez Aguilar, Stephanie McFadden, Paul Baker, Paul Maertens, John Ruterbusch, Ray Roberts, Joseph EHRKEOriginal AssigneeTk Holdings, Inc.Export CitationBiBTeX, EndNote, RefManPatent Citations (83), Referenced by (71), Classifications (13), Legal Events (2) External Links: USPTO, USPTO Assignment, EspacenetPassive airbag venting
US 20070108750 A1Abstract
An occupant protection apparatus comprises an inflatable airbag with a panel, the panel including a first vent opening that permits inflation fluid to escape out of the airbag; and a valve sheet including a second vent opening movable relative to the first vent opening, the valve sheet having opposite ends that are each fixed to a surface of the airbag. One end of the valve sheet moves with the panel during inflation of the airbag to move the second vent opening relative to the first vent opening. The apparatus also includes a valve guide to guide movement of the valve sheet relative to the panel, the valve sheet is capable of sliding between the valve guide and the panel. Both ends of the valve sheet remain fixed to the panel during and after inflation of the airbag. Images(36) Claims(32)
1. An occupant protection apparatus comprising: an inflatable airbag including a panel, wherein the panel includes a first vent opening through which inflation fluid may escape out of the airbag; a moveable valve sheet overlying the first vent opening and including a second vent opening movable relative to the first vent opening, the valve sheet being fixed to a surface of the panel at opposite ends; and a valve guide to guide movement of the valve sheet relative to the panel, wherein the valve sheet is configured to slide between the valve guide and the panel, wherein one end of the valve sheet moves with the panel during inflation of the airbag to move the second vent opening relative to the first vent opening, and wherein the first and a second end of the valve sheet are fixed to the panel during and after inflation of the airbag. 2. The occupant protection apparatus of claim 1, further comprising tearable stitching configured to maintain an initial configuration of the valve sheet prior to inflation, the tearable stitching being configured to break during inflation of the airbag to thereby allow the valve sheet to move relative to the first vent opening. 3. The occupant protection apparatus of claim 1, wherein the valve guide comprises a band extending across a portion of the valve sheet, wherein opposite ends of the band are fixed to the panel at opposite sides of the valve sheet. 4. The occupant protection apparatus of claim 3, wherein the valve guide does not include any openings alignable with the first vent opening. 5. The occupant protection apparatus of claim 1, wherein one end of the valve sheet is fixed to the panel near the first vent opening and the second end is fixed away from the first vent opening. 6. The occupant protection apparatus of claim 5, wherein both ends of the valve sheet are fixed to a surface of the panel configured to be in contact with inflation fluid in an inflatable chamber. 7. The occupant protection apparatus of claim 1, wherein the valve sheet is an integral sheet extending from the first end to the second end. 8. The occupant protection apparatus of claim 1, wherein the second vent opening is movable relative to the first vent opening such that the first and second vent openings are aligned in an open state prior to inflation of the airbag and the first and second vent openings are misaligned in a closed state during a later stage of inflation of the airbag. 9. The occupant protection apparatus of claim 1, further comprising a tear tab configured to maintain the initial configuration of the valve sheet prior to inflation, the tear tab configured to break during inflation of the airbag to release a portion of the valve sheet to allow the valve sheet to move relative to the vent opening. 10. The occupant protection apparatus of claim 9, wherein the tear tab comprises slits such that fibers of the tear tab adjacent the slit are discontinuous. 11. The occupant protection apparatus of claim 10, wherein the slits are at a 45 degree angle to an edge of the second vent opening. 12. The occupant protection apparatus of claim 9, wherein a first end of the tear tab is configured to be secured to and extend from a portion of the valve sheet distal from the second vent opening, a middle portion of the tear tab loops through the second vent opening, and a second end of the tear tab is secured a portion of the valve sheet, and wherein the middle portion comprises discontinuous slits adjacent the second vent opening. 13. The occupant protection apparatus of claim 9, further comprising a third vent opening in the valve sheet alignable with the first vent opening, wherein the second vent opening comprises a plurality of openings in a region of the valve sheet, wherein in an initial, uninflated state, the second vent opening is aligned with the first and third vent openings, and after deployment of the airbag, the second vent opening is misaligned with the first and third vent openings to close the first vent opening. 14. The occupant protection apparatus of claim 13, wherein the a portion of the valve sheet comprising the third vent opening is folded over and overlaps a portion of the valve sheet comprising the second vent opening when the airbag is in the uninflated state. 15. An occupant protection apparatus comprising: an inflatable airbag with a panel, the panel including a first vent opening to enable escape of inflation fluid out of the airbag; a valve sheet including a second vent opening movable relative to the first vent opening; and a tear tab extending from a portion of the valve sheet to temporarily retain the valve sheet to the panel, the tear tab breaking when the airbag is inflated to a predetermined inflation level to move the second vent opening relative to the first vent opening. 16. The occupant protection apparatus of claim 15, wherein the tear tab in integral with the valve sheet. 17. The occupant protection apparatus of claim 15, wherein the tear tab includes slits at a 45 degree angle to an edge of the second vent opening. 18. The occupant protection apparatus of claim 15, wherein the slits create discontinuous fibers in the tear tab. 19. The occupant protection apparatus of claim 15, wherein the tear tab restrains an excess portion of the valve sheet prior to inflation of the airbag, breaking of the tear tab releases the excess portion to move the second vent opening relative to the first vent opening. 20. The occupant protection apparatus of claim 15, wherein the tear tab includes a circular opening and discontinuous fibers in the tear tab. 21. An airbag apparatus comprising: a fabric panel including a first vent opening configured to allow inflation gas to escape from the airbag therethrough; and a valve assembly configured to block the vent opening, wherein the valve assembly is configured so that when the airbag begins to inflate the vent opening is not blocked, and when the airbag deploys to a predetermined position, the valve assembly closes the vent opening. 22. The airbag apparatus of claim 21, wherein the valve assembly includes a slidable valve sheet overlying the vent opening and a valve guide to guide movement of the valve sheet relative to the fabric panel, and wherein opposite first and second ends of the valve sheet are fixed to the panel during and after inflation. 23. The airbag apparatus of claim 22, wherein the valve sheet includes a second opening moveable relative to the first vent opening. 24. The airbag apparatus of claim 23, further comprising tearable stitching configured to maintain an initial configuration of the valve sheet prior to inflation, the tearable stitching being configured to break during inflation of the airbag to thereby allow the valve sheet to move relative to the first vent opening. 25. The airbag apparatus of claim 23, wherein the valve guide comprises a band extending across a portion of the valve sheet, wherein opposite ends of the band are fixed to the panel at opposite sides of the valve sheet. 26. The airbag apparatus of claim 25, wherein the valve guide does not include any openings alignable with the first vent opening. 27. The airbag apparatus of claim 23, wherein one end of the valve sheet is fixed to the panel near the first vent opening and the second end is fixed away from the first vent opening. 28. The airbag apparatus of claim 27, wherein both ends of the valve sheet are fixed to a surface of the panel configured to be in contact with inflation fluid in an inflatable chamber. 29. The airbag apparatus of claim 23, wherein the second vent opening is movable relative to the first vent opening such that the first and second vent openings are aligned in an open state prior to inflation of the airbag and the first and second vent openings are misaligned in a closed state during a later stage of inflation of the airbag. 30. The airbag apparatus of claim 23, further comprising a tear tab configured to maintain the initial configuration of the valve sheet prior to inflation, the tear tab configured to break during inflation of the airbag to release a portion of the valve sheet to allow the valve sheet to move relative to the vent opening. 31. The airbag apparatus of claim 30, wherein the tear tab comprises slits such that fibers of the tear tab adjacent the slit are discontinuous. 32. The airbag apparatus of claim 31, wherein the slits are at a 45 degree angle to an edge of the second vent opening.
CROSS-REFERENCE TO RELATED PATENT APPLICATIONS [0001] This application claims the benefit of and priority to U.S. Provisional Patent Application Nos.: 60/718,746 filed Sep. 21, 2005; 60/725,636 filed Oct. 13, 2005; 60/750,804 filed Dec. 16, 2005; 60/750,799 filed Dec. 16, 2005; and 60/745,024 filed Apr. 18, 2006, all of which are incorporated herein by reference in their entirety.
BACKGROUND [0002] The present invention relates generally to the field of venting assemblies for airbags. More specifically, the present invention relates to passive venting assemblies. [0003] Airbags may include venting assemblies to release inflation fluid out of the airbag. Generally, venting assemblies are located in the airbag housing adjacent the inflator. [0004] Some airbag systems utilize active sensor and/or control systems to control the deployment of the airbag during an accident involving a rear facing infant seat (RFIS) or out-of-position (OOP) occupant that will minimize potential injuries to occupants from the airbag itself. Such electronic sensor and control systems can be expensive and, more significantly, the complexity of the sensor and control systems may make high reliability difficult to achieve in some circumstances. These conventional “active” assemblies may also require a significant amount of space in an airbag system. [0005] Passive venting systems are advantageous because they do not require costly equipment to manufacture or install. Passive venting systems are advantageous because the mechanism is simpler than an electronic control system and may be more reliable than an electronic control system. SUMMARY [0006] An embodiment of the invention provides an occupant protection apparatus. The apparatus comprises: an inflatable airbag including a panel, wherein the panel includes a first vent opening through which inflation fluid may escape out of the airbag; a moveable valve sheet overlying the first vent opening and including a second vent opening movable relative to the first vent opening, the valve sheet being fixed to a surface of the panel at opposite ends; and a valve guide to guide movement of the valve sheet relative to the panel. The valve sheet is configured to slide between the valve guide and the panel. One end of the valve sheet moves with the panel during inflation of the airbag to move the second vent opening relative to the first vent opening. The first and a second end of the valve sheet are fixed to the panel during and after inflation of the airbag. [0007] Another embodiment of the invention provides an occupant protection apparatus. The apparatus comprises: an inflatable airbag with a panel, the panel including a first vent opening to enable escape of inflation fluid out of the airbag; a valve sheet including a second vent opening movable relative to the first vent opening; and a tear tab extending from a portion of the valve sheet to temporarily retain the valve sheet to the panel, the tear tab breaking when the airbag is inflated to a predetermined inflation level to move the second vent opening relative to the first vent opening. [0008] Another embodiment of the invention provides an airbag apparatus. The apparatus comprises: a fabric panel including a vent opening configured to allow inflation gas to escape from the airbag therethrough; and a valve assembly configured to block the vent opening. The valve assembly is configured so that when the airbag begins to inflate the vent opening is not blocked, and when the airbag deploys to a predetermined position, the valve assembly closes the vent opening. [0009] It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only, and are not restrictive of the invention as claimed. BRIEF DESCRIPTION OF THE DRAWINGS [0010] These and other features, aspects, and advantages of the present invention will become apparent from the following description, appended claims, and the accompanying exemplary embodiments shown in the drawings, which are briefly described below. [0011] FIG. 1(a) is a detail perspective of a vent assembly for an airbag. [0012] FIG. 1(b) is a detail perspective view of the vent assembly of FIG. 1(a) in which a valve sheet is shown with excess material stowed. [0013] FIGS. 2(a) and 2(b) are cross-sectional views of an airbag including the vent assembly of FIG. 1(a) in which the airbag impacts an object during deployment. FIG. 2(a) is a perspective view and FIG. 2(b) is a side view. [0014] FIGS. 3(a) and 3(b) are views of another embodiment of a vent assembly for an airbag. FIG. 3(a) shows a guide stitch pattern wherein a valve sheet includes two connection bands. FIG. 3(b) shows a guide stitch pattern wherein the valve sheet includes three connection bands. [0015] FIG. 4 is a view of an airbag vent assembly according to another embodiment of the invention. [0016] FIG. 5 is an exemplary view of a valve sheet for an airbag vent assembly showing several different embodiments of the invention. [0017] FIG. 6 is a view of a vent assembly for an airbag according to another embodiment of the invention. [0018] FIG. 7 is a view of a vent assembly for an airbag according to another embodiment of the invention. [0019] FIG. 8 is a view of another embodiment of a passive vent assembly for an airbag according to another embodiment of the invention. [0020] FIG. 9 is a close-up view of the vent assembly of FIG. 8. [0021] FIGS. 10(a), 10(b), 10(c) and 10(d) are views of different closures to be employed with the vent assembly of FIG. 8. FIGS. 10(a) and 10(b) illustrate a pull tie type closure device. FIGS. 10(c) and 10(d) illustrate a cable clamp type closure device. [0022] FIG. 11 is a top view of an airbag panel including another embodiment of a vent assembly. [0023] FIGS. 12(a), 12(b) and 12(c) are views of a vent patch according to another embodiment of a vent assembly. FIG. 12(a) illustrates the vent patch in an extended state. FIG. 12(b) illustrates the vent patch prior to deployment of the airbag. FIG. 12(c) illustrates the vent patch after deployment. [0024] FIGS. 13(a) and 13(b) are views of the airbag of FIG. 11 showing an outside surface of a fabric panel with the vent. [0025] FIG. 14 is a view of an inside surface of a panel of the airbag of FIG. 11 showing the vent guide. [0026] FIG. 15 is a view of an inside surface of the airbag panel of FIG. 11 showing the vent guide. [0027] FIG. 16 illustrates a view of a venting apparatus according to an embodiment of the invention. [0028] FIG. 17 illustrates the venting apparatus of FIG. 16 in conjunction with an airbag, in which a sectional view of the airbag is shown. [0029] FIG. 18 is a view of the venting apparatus of FIG. 16 in which a strap is extended to close an airbag vent. [0030] FIG. 19 is a view of the venting apparatus of FIG. 18 in conjunction with an airbag, in which a sectional view of the airbag is shown. [0031] FIG. 20 is a sectional view of an airbag illustrating the airbag vent in which the venting apparatus is not shown for sake of clarity. [0032] FIG. 21 is a view of an airbag apparatus with passive tether release according to another embodiment of the invention in which the tether remains intact. [0033] FIG. 22 is a view of the airbag apparatus of FIG. 21 after the tether has been released. [0034] FIG. 23 is a view of a vent valve assembly according to an embodiment including tack stitching. [0035] FIG. 24 is a view of the vent valve assembly of FIG. 23. [0036] FIG. 25 is a view of the vent valve assembly of FIG. 23 in which the tack stitches are beginning to break during inflation of the airbag. [0037] FIG. 26 is a view of the vent valve assembly of FIG. 23 showing the initial covering of a first vent opening during inflation of the airbag. [0038] FIG. 27 is a view of the vent valve assembly of FIG. 23 in which the first vent opening is completely covered and the vent is closed. [0039] FIG. 28 is an exploded view of a vent valve assembly with tear tabs according to another embodiment of the invention. [0040] FIG. 29 is a view of an alternative embodiment to the vent valve assembly of FIG. 28 prior to inflation of the airbag. [0041] FIG. 30 is a view of the vent valve assembly of FIG. 29 prior to inflation of the airbag. [0042] FIG. 31 is a view of a tear tab of the valve assembly of FIG. 29. [0043] FIG. 32 is a top view of a valve assembly with a valve sheet and tear tabs according to another embodiment of the invention. [0044] FIG. 33 is a view of the tear tab of the valve assembly of FIG. 32. [0045] FIG. 34 is a top view of the valve sheet of FIG. 32, in which the valve sheet is arranged in an initial position prior to inflation of the airbag. [0046] FIG. 35 is a view of the valve sheet of FIG. 32 attached to an airbag prior to inflation. [0047] FIG. 36 is a view of the valve sheet of FIG. 32 after inflation of the airbag, in which the tear tabs are broken. [0048] FIG. 37 is a diagram of tear slits according to another embodiment of the invention. [0049] FIG. 38 is a diagram of tear slits. [0050] FIG. 39 is a top view of a valve sheet and pocket of a vent valve according to another embodiment of the invention, in which the valve sheet and pocket are fully extended prior to attachment to a fabric panel. [0051] FIG. 40 is a top view of the valve sheet and pocket of the vent valve of FIG. 39 in which the valve sheet and pocket are attached to a fabric panel and the vent valve is partially open. [0052] FIG. 41 is a top view of a valve sheet and pocket according to another embodiment of the invention in which a vent valve is fully closed. [0053] FIG. 42 is a top view of a valve sheet and integral pocket according to another embodiment of the invention in which a vent valve is fully open.
DETAILED DESCRIPTION [0054] The airbag 100 includes a vent valve 115. The vent valve 115 includes a valve guide 120, which overlies an opening 114 in a panel 112 of the airbag 100. The valve guide 120 and opening 114 form the vent valve 115, which opens and closes based on the relative position of the opening 114 and the guide 120. The actuation of the valve 115 is controlled by the slope of the airbag 100 during deployment. [0055] As the airbag 100 inflates, the airbag 100 can impact an object, such as a rear facing child seat 160 or an out-of-position (OOP) occupant. If the airbag 100 does impact a rear facing child seat 160 or other object that restricts the trajectory of the airbag 100, the valve 115 will remain open so that the impact of the airbag 100 is relatively soft. If the airbag 100 does not impact a trajectory-limiting object, the cushion vent 114 will close as the airbag 100 expands so that the airbag 100 is capable of protecting a normally seated occupant. Since the valve 115 closes during unimpeded deployment of the airbag 100, dynamic occupant restraint can remain similar to current designs without passive venting. [0056] Generally, conventional self-activating vents are positioned in the airbag module housing. In the embodiments shown, the valve 115 is positioned to work in conjunction with an opening 114 in the fabric 110 of the airbag 100 and not in the airbag module housing 105. The opening 114 can be positioned in any suitable location on the airbag 100 and/or airbag fabric 110. [0057] The vent guide 120 is a one piece fabric guide that is sewn or attached to an inner surface 112 of the cushion fabric 110. The vent guide 120 includes a valve guide pocket 130 and a valve sheet 140. The vent guide 120 is positioned adjacent to and alignable with the opening 114 in the airbag 100. Initially, prior to the deployment of the airbag 100 and during the initial deployment, the opening 114 is open. If the airbag 100 impacts an object, which restricts the trajectory of the airbag 100, the vent guide 120 blocks the cushion opening 114. [0058] The valve guide pocket 130 is attached by stitch seam lines 132 to the inner surface 112 of the cushion fabric 110. The valve guide pocket 130 creates a pocket or guide for the remaining portion of the vent guide 120 to be positioned through in order to maintain the valve sheet 140 over the cushion opening 114. The valve guide pocket 130 also includes an opening 134, which allows for inflation gases to escape through the cushion opening 114. [0059] The valve sheet 140 extends from one end of the valve guide pocket 130, loops between the valve guide pocket 130 and the inner surface 112 of the cushion fabric 110 and extends along, forming a valve sheet extension 150 (shown in FIG. 2) that is attached to the inner surface 112 of the fabric panel 110 away from the cushion opening 114. The valve sheet 140 includes a valve port 144 (second vent opening) which aligns with, at least initially, the cushion opening 114, and allows for inflation gases to escape through the cushion opening 114. The valve sheet 140 includes guide stitches in a pattern, such as shown in FIGS. 3(a) and 3(b) (described below). The guide stitches help prevent the valve sheet 140 from deforming and/or minimizes wrinkles 146 formed across the surface of the valve sheet 140 when under tension from the deployment of the airbag 100. [0060] The valve sheet 140 initially contains excess material 148. This excess material 148 can be stowed by being folded or rolled up and held by a stitched seam 149. As the valve sheet extension 150 and valve sheet 140 are pulled in a direction P due to the deployment of the airbag 100, the stitched seam 140 can be pulled out. The removal of the stitched seam 140 allows for the excess material 148 to release and the valve sheet 140 to extend. [0061] FIGS. 2(a) and 2(b) show the airbag 100 during full deployment. The airbag 100 is shown with a tether 155, such as used with a dual lobe airbag. In the embodiment shown here, the cushion opening 114 is located in the inner surface 112 of the cushion fabric 110 on a side adjacent a windshield 168 of a vehicle. As the airbag 100 deploys, the airbag 100 exits the airbag module 105, breaking open the cover 106, and expanding into an interior space of a vehicle. As shown in FIG. 3, the airbag 100 impacts a rear facing child seat 160, which limits the trajectory of the airbag 100. [0062] The valve sheet extension 150, which can be integrally formed with the valve sheet 140, is attached at an anchor point 152 located near a contact point of a rear facing child seat 160, which generally sits upon a vehicle seat. Thus, when the airbag 100 impacts the child seat 160, the valve sheet extension 150 is no longer pulled or stretched, which allows for inflation gases to escape through the valve formed by openings 134, 144 in the vent guide 120 and the cushion opening 114. The extension 150 can be asymmetrical to the additional tether 155. [0063] FIG. 2(b) shows the location of an additional, conventional vent hole 162. The conventional vent 162 is generally located on a top surface of the airbag 100. The airbag 100 in FIGS. 2(a) and 2(b) impacts against a rear facing child seat 160, which limits the trajectory of the airbag 100. FIG. 2(b) shows, along the dotted line 164, the full trajectory of the airbag 100 when there is no object for the airbag 100 to impact. [0064] FIGS. 3(a) and 3(b) show different embodiments of the vent guide 120 with varying guide stitch patterns 242, 262. FIG. 3(a) illustrates a vent guide 220 adjacent the cushion opening 114. The vent guide 220 is similar to the above embodiment and includes a valve guide pocket 230 and a valve sheet 240. The valve guide pocket 230 includes an opening (not shown) to allow for inflation gases to exit through the cushion opening 114. [0065] The valve sheet 240 includes a guide stitch pattern 242. The guide stitch pattern 242, as mentioned above, helps retain the proper position of the valve sheet 240 when a force is applied to the valve sheet 240 in a direction P. As shown in FIG. 3(a), the guide stitch pattern 242 is a generally oblong, single shape. Of course, any other suitable shape may be used. The guide stitch pattern 242 creates connection bands 248 a, 248 b. [0066] FIG. 3(b) illustrates a vent guide 220 adjacent the cushion opening 114. The vent guide 220 is similar to the above embodiment and includes a valve guide pocket 230 and a valve sheet 260. The valve guide pocket 230 includes an opening (not shown) to allow for inflation gases to exit through the cushion opening 114. [0067] The valve sheet 260 includes a guide stitch pattern 262. The guide stitch pattern 262, as shown in FIG. 3(b), contains dual sections, which are circular in this embodiment. Of course, any other suitable shape, or combination of shapes may be used. The guide stitch pattern 262 creates three connection bands 268 a, 268 b, and 268 c. The central tension band 268 b further controls the valve surface and the valve sheet 260. [0068] FIG. 4 is a detail view of an airbag fabric 270 and a portion of a valve sheet 274, which extends into a tether. The airbag fabric 270, according to this embodiment, includes a mesh fabric section 271 instead of a vent hole to allow inflation gases to escape. The open mesh fabric section 271 can help prevent the valve sheet 274 from extending through the vent hole under high internal pressure. [0069] According to additional embodiments of the invention, the airbag fabric 280 can include a variety of, including a combination of, cushion vents and openings. For example, as shown in FIG. 5, the airbag fabric 280 can include a single vent opening 280, a plurality of openings 284, or cross-vents. The cross-vents can help prevent a valve sheet from extending through the cushion openings. [0070] In an embodiment shown in FIG. 6, the valve sheet 290 has a tapered shape. The valve sheet 290 can taper to a narrower section, such as, for example, after the port opening 292 in the direction of the valve sheet extension. This tapered shape can be seen in comparison to a conventional tether panel shape, such as shown by reference numeral 298. The tapered valve sheet 290 shape can prevent gathering or twisting of the valve sheet 290 under tensile loading conditions. [0071] In yet another embodiment of the invention, as can be seen in FIG. 7, a vent guide 300 includes a valve guide pocket 310 and a valve sheet 320. The valve guide pocket 310 includes an opening or port 312 for inflation gases. A forward edge of the port 312 is formed in a general “V” shaped cut 314. This V shape 314 can help prevent a closing edge 324 of the opening 322 of the valve sheet 320 from snagging during closing of the vent, or pulling of the valve sheet 320 in a direction P. [0072] FIGS. 8 and 9 show another embodiment of the invention in which the vent opening in a cushion fabric 400 is a cross vent 420 type opening. As shown in FIG. 8, a valve control member 410 extends from an anchor 412 on a cushion surface 404 to a loop 416. The valve control member 410 may comprise plastic, such as nylon, or any other suitable material. The control member 410 may take the form of a line, cord, string, or wire, for example. The loop 416 encircles flaps 422 of the cross vent 420. The cushion fabric 400 includes slits 421 in a cross-type pattern that when pulled back form an opening 425. The flaps 422 are folded back over the loop 416 and stitched back to the cushion fabric 400 along stitched seams 423, which maintain the position of the loop 416. [0073] The valve control member 410 also includes a closure device 414, which enables the loop 416 to tighten, thus closing the opening 425. The loop 416 tightens when the airbag reaches full deployment. In full deployment, the stitched seams 423 can be broken, thus allowing for the flaps 422 to close the opening 425. [0074] FIGS. 10(a) and 10(b) show an embodiment of a closure device 434. The closure device 434 is similar to a pull-tie and includes ridges 436 and a moveable section 438. The moveable section 438 slides over the ridges when sufficient force is applied to the valve sheet, in order to close a vent. [0075] FIGS. 10(c) and 10(d) show another embodiment of a closure device 444. In this embodiment, the closure device is similar to a cable clamp. The closure device 444 includes a cable section 448 and a clamp 446. During operation, when the airbag deploys, the cable section 448 is pulled, thus moving the clamp 446 toward the opening 425. When the clamp 426 completely tightens the loop in the cable section 448, the flaps 422 are pulled, breaking seams 423 and flipping the flaps 422 over to block the opening 425. [0076] FIGS. 11 and 12(a)-12(c) illustrate another embodiment of a vent valve 515. The vent valve 515 includes a vent guide 520 for an airbag 500. The airbag 500 includes a plurality of fabric panels 510 which form an inflatable chamber. Each side fabric panel 510 includes an opening 514. An opening 514 is positioned on the left and right sides of an occupant during deployment of the airbag 500 such that no vented gas will impinge an occupant directly. FIG. 11 illustrates only one fabric panel 510 and one opening 514 for sake of clarity. [0077] The vent guide 520 includes a patch 540 positioned in a pocket 530 to align the patch 540 with the opening 514. The patch 540 is attached by an attachment point 546 at one end of the airbag 500 at an internal surface 512. The other end of the patch 540 forms the pocket 530. The patch 540 is folded or rolled over at 548. The pocket 530 is attached to the fabric panel 510 at seams 532. The patch 540 extends from the pocket 530, is folded under at 548 and extends underneath the pocket 530. The patch 540 is stitched into position by tacking stitches 544. The pocket 530 includes a pocket opening 534 that aligns with a patch opening 542 and cushion opening 514 prior to deployment of the airbag 500. [0078] If, during inflation, the airbag 500 impinges upon an object that prevents the airbag 500 from fully deploying, the patch 540 remains in the same position as shown in FIG. 12(b). In this position, the valve 515 remains open, allowing air to escape out of the cushion opening 514. However, if the airbag 500 fully deflates, the patch 540 is pulled by the shape and inflation of the airbag 500, breaking tack stitches 544 and pulling the patch 540 so that the patch opening 542 is no longer aligned with the opening 514 and pocket opening 534. This position closes the valve 515. [0079] FIGS. 13(a) and 13(b) illustrate an outside surface of the airbag panel 510. The stitch seams 532 attaching the pocket 530 to the panel 510 are visible, as well as the opening 514. FIG. 13(b) is a close-up view of the opening 514. The opening 514 may comprise a plurality of X-vents (as shown), a single opening or hole, or any other suitable shape. FIGS. 14 and 15 are additional views of the vent guide 520. [0080] The airbag 500 can also include an additional vent opening 560, which remains open during inflation of the airbag 500, and an internal tether 565. [0081] FIGS. 16-20 illustrate another embodiment of a passive venting apparatus 900 which may be used in conjunction with an airbag 800. The airbag 800 includes at least one airbag vent valve 810 including a first vent opening (not shown) in the airbag cushion. However, the airbag 800 can include additional vents which can open as the airbag 800 deploys. Valve 810 begins in an open position as the airbag 800 initially begins to deploy and can close as the airbag 800 extends towards an occupant that is seated correctly. If the occupant is seated out-of position (incorrectly) or if the airbag 800 contacts an obstruction, the vent valve 810 will remain open and discharge inflation gases. [0082] The passive venting apparatus 900 is configured to be integrated with a valve sheet extension 850 that can be incorporated into the airbag with minimum impact on existing manufacturing processes. The valve sheet extension 850 can extend from a point along an inside surface 820 of the airbag 800 to a second point on the inside surface 820. The valve sheet extension 850 is generally slack before the airbag 800 begins deployment and, as the airbag 800 reaches full deployment, the valve sheet extension 850 becomes taut to control the shape of the deployed airbag 800. [0083] A connecter 860 connects or joins the extension 850 with the passive venting apparatus 900. The connector 860 may be a separate connecting device, such as a strap, ring, buckle, or any other suitable device, sewn stitches, or an extension of material forming the valve sheet extension 850 and the passive venting device 900. The connector 860, passive venting apparatus 900 and extension 850 may be integrally or discretely connected. For example, the valve sheet extension 850 can be an integral extension of a valve sheet or strap. [0084] As shown in FIG. 16, the passive venting apparatus 900 includes a strap 910 extending from a first end to the connector 860 and a sleeve 950. The strap 910 includes a strap opening 920 (second vent opening) that is positioned on top of the airbag opening (first vent opening) such that the strap vent 920 aligns with the airbag opening. The sleeve 950 is positioned over a portion of the strap 910 and is configured to maintain the position of the strap 910. The sleeve 950 includes a sleeve vent opening 960 that is initially aligned with the strap vent opening 920 and airbag opening (first vent opening) such that the airbag valve 810 is opened and the first vent opening is uncovered to allow inflation gases to escape. The sleeve 950 is connected to the airbag 800 by sewn stitches 970 or by any other suitable manner. [0085] As shown in FIG. 17, the strap 910 extends from the connector 860, slides under the sleeve 950 and loops around at loop 930. A second end of the strap 910 may be attached to the sleeve 950, the airbag 800, or looped in any other suitable manner, such that when the airbag 800 deploys and the extension 850 tightens, the strap 910 is able to slide with the movement of the extension 850. [0086] FIG. 18 illustrates the passive venting apparatus 900 after the airbag 800 deploys and the extension 850 tightens, thus pulling the strap 910. The strap 910 is pulled out from the sleeve 950 such that the strap vent opening 920 is no longer aligned with the sleeve vent opening 960. In this position, the airbag valve 810 is closed, preventing the escape of inflation gases out of the first vent opening. FIGS. 19 and 20 illustrate the passive venting apparatus 900 in conjunction with the extension 850, after the airbag 800 has fully deployed. [0087] It will be recognized that the airbag 800 may have a plurality of valves 810, airbag cushion openings, and/or passive venting apparatuses 900. [0088] FIGS. 21 and 22 illustrate another embodiment of the invention in which an airbag apparatus includes a releasable passive tether device. The passive tether device is configured to provide a controlled or restricted airbag cushion shape when the airbag is inflated near a rear facing infant seat (RFIS) or an out of position (OOP) occupant. The passive tether device also allows the airbag to inflate normally in the absence of a RFIS or OOP occupant. [0089] It is an object of the invention to design an airbag that deploys in such a manner to automatically protect a RFIS or OOP occupant without relying on outside electronic sensors or controls. [0090] FIG. 21 illustrates an airbag apparatus 1000 with an airbag 1100 that deployed in the presence of a RFIS 1090. The airbag 1100, in this embodiment, is a passenger side airbag that deploys out of an instrument panel 1070 and toward a vehicle windshield 1050. [0091] The airbag 1100 comprises a releasable passive tether 1110, a locking cable 1120 (anchor thread) and a releasable attachment mechanism 1130. The tether 1110 is a two part, 1111 and 1112, vertical tether positioned in such a manner that it restrains the airbag and prevents the airbag from deploying downward between the instrument panel 1070 and the back of the RFIS 1090. [0092] The locking cable 1120, when pulled laterally, allows the first part 1111 and second part 1112 of the tether 1110 to separate. The locking cable 1120 is configured to have a length that allows the locking cable 1120 to remain connected and in a slack condition if the front of the airbag 1100 (and possibly the tether 1110 itself) impacts a RFIS 1090 or OOP occupant during early deployment. In this case, first and second parts 1111, 1112 of the tether 1110 remain connected and prevent a substantial portion of the airbag 1100 from deploying downward between the RFIS 1090 or OOP occupant and instrument panel 1070. The restraint of the airbag 1100 lowers acceleration forces on the back of the RFIS 1090 and can lower potential head and chest accelerations of an occupant. [0093] A distal end of the first part 1111 and a distal end of the second part 1112 may be connected to the airbag fabric panel(s) directly or indirectly by stitching or any other suitable mechanism. Alternatively, one or both of the distal ends of the first and second parts 1111, 1112 may be connected to the housing 1010 by any suitable manner. [0094] The locking cable 1120 may be attached at one end, directly or indirectly, to the airbag 1100 or the housing 1010. The opposite end of the locking cable 1120 is connected to the tether 1110. The locking cable 1120 may be a cable, thread, cord, or any other suitable device. The locking cable 1120 may be made of any suitable material. [0095] The releasable attachment mechanism 1130 may be any suitable mechanism to initially keep the first part 1111 and second part 1112 of the tether 1110 together and to release or separate the two parts 1111 and 1112 when appropriate. For example, the releasable attachment mechanism 1130 may comprise loops, clamps, releasable/tear stitching, a moveable member, a shear pin, or any other suitable mechanism. For another example, the proximal ends of the first and second parts 1111 and 1112 may join together to form a slot to receive the locking cable 1120. The locking cable 1120 may lock or attach the three parts (1111, 1112 and 1120) together. When the airbag 1100 does not impact an object, such as an RFIS 1090, the locking cable 1120 is pulled out of the slot and releases the first part 1111 from the second part 1112. [0096] The releasable attachment mechanism 1130 may be configured such that the proximal end of the first part 1111 connects to the locking cable 1120 and the proximal end of the second part 1112 connects to the locking cable 1120 such that the first part 1111 and second part 1112 do not directly connect. Alternatively, the proximal ends of the first and second parts 1111, 1112 may directly connect and the locking cable 1120 may be attached to one or both parts 1111 and/or 1112. [0097] FIG. 22 illustrates the airbag apparatus 1000 in situation in which the airbag 1100 is able to deploy normally, without impacting an RFIS 1090 or OOP occupant. In FIG. 22, an occupant 1092 is in position on a vehicle seat 1030. In this situation, the expanding airbag 1100 pulls the locking cable 1120 beyond the range in which the locking cable 1120 can remain slack. The locking cable 1120 is pulled out of the tether 1110 (or otherwise removed from the tether 1110) and the first part 1111 and second part 1112 separate, thus releasing the airbag to continue expanding to a fully deployed condition. [0098] Alternatively, the airbag apparatus 1000 may be configured such that a tether is used without a locking cable. In this embodiment, if the airbag 1100 impacts a RFIS or OOP occupant, the tether 1110 remains intact. If, on the other hand, the airbag 1100 does not impact an RFIS or OOP occupant, the airbag 1100 continues to deploy normally and the nature of the deploying airbag 1100 pulls the tether 1110 and releases the tether 1110 and separates the first part 1111 from the second part 1112. In this embodiment, the impact between the airbag 1100 and the RFIS or occupant prevents the tether 1110 from being placed under the force required to separate the two parts 1111, 1112. [0099] It will be recognized that the tether 1110 may be a vertically oriented tether, such as shown in FIGS. 21 and 22, or the tether may be oriented in any other suitable direction, such as horizontally, diagonally, or any other angle. The tether 1110 and locking cable 1120 may be of any suitable shape, length or made of any suitable material. A plurality of tethers 1110 may be used. [0100] FIGS. 23 to 27 illustrate another embodiment of an airbag 1200 with a passive venting assembly. In this embodiment, a valve sheet 1210 is attached to a fabric panel 1201 of an airbag 1200. The fabric panel 1201 includes a first vent opening 1205 to enable inflation fluid to escape out of the airbag 1200 during deployment. FIGS. 23 to 27 illustrate a first (airbag) vent opening 1205 that comprises a plurality of small vent openings. It will be recognized that the airbag vent opening 1205 may comprise any suitable number, shape and size of openings. [0101] The valve sheet 1210 includes a second vent opening 1224 that is movable relative to the first vent opening 1205. The second vent opening 1224 is shown for exemplary purposes with two discrete openings. It will be recognized that the second vent opening 1224 may comprise any suitable number, shape and size of openings. [0102] The valve sheet 1210 is secured (fixed) at opposite ends to the fabric panel 1201. The valve sheet remains fixed to the airbag 1200 during and after inflation of the airbag 1200. A distal end 1212 of the valve sheet 1210 is fixed to the fabric panel 1201 away from the first vent opening 1205 by sewn stitches or any other suitable manner. The opposite end 1214 of the valve sheet 1210 is fixed closer to the first vent opening 1205 by sewn stitches or any other suitable manner. During inflation of the airbag 1200, the valve sheet 1210 is stretched or pulled, thus moving the valve sheet 1210 and second vent opening 1224 relative to the first vent opening 1205 and covering the first vent opening 1205 to thereby close the vent valve. [0103] The airbag 1200 may also include a valve guide 1230. The valve guide 1230 guides movement of the valve sheet 1210 relative to the fabric panel 1201. The valve sheet 1210 is capable of sliding between the valve guide 1230 and the fabric panel 1201. The valve guide 1230 is fixed at opposite ends to the fabric panel 1201, such that the distance between the fixed points is greater than the width of the valve sheet 1210 to enable movement of the valve sheet 1210. [0104] The valve sheet 1210 includes a folded over section of excess material 1222 that is secured by tack/rupturable stitching 1250. The excess material 1222 section is used to align the second vent opening 1224 with the first vent opening 1205. When the valve sheet 1210 is pulled during inflation of the airbag 1200, the force from the pulling of the valve sheet 1210 ruptures the tack stitching 1250, releasing the excess material 1222 and moving the second vent opening 1224 away from the first vent opening 1205. The valve sheet 1210 may also include additional tack stitching 1250 to hold the position of the valve sheet 1210 such that the vent opening 1205 is uncovered allowing the vent valve to be “open” until a predetermined force is met during inflation of the airbag 1200. For example, the valve sheet 1210 includes tack stitching on a portion on opposite sides of the second vent opening 1224, as shown in FIG. 23. [0105] FIGS. 28 to 31 illustrate an embodiment of the invention with two sections of a valve sheet opening that are pre-scored to break easily during deployment, but also retain the valve sheet in a proper storage location when needed. [0106] FIG. 28 is an exploded, perspective view of an airbag 1301 with a passive venting assembly 1300 utilizing tear zone tabs 1350. The passive venting assembly 1300 includes a vent valve that remains open during initial inflation (which keeps the openings 1305 uncovered) and closes when the airbag 1301 reaches full deployment. [0107] The passive venting assembly 1300 includes a valve sheet 1310 with a main valve sheet portion 1320 and an envelope (pocket) 1330. The valve sheet 1310 is connected at a distal end (not shown) to a portion of the airbag 1301 and at an opposite end to a portion of the airbag 1301 near the airbag openings 1305 via the envelope 130. The envelope 1330 is an integral part of the valve sheet 1310. The envelope 1330 is sewn to the airbag 1301 along sew lines 1340. The envelope 1330 is positioned over a portion of the valve sheet 1320 in order to keep the valve sheet 1320 in a proper location prior to and during inflation of the airbag 1301. Alternatively, the envelope 1330 may be a separate piece attached to the airbag 1301 and/or valve sheet 1310. [0108] The valve sheet 1320 includes valve openings 1324 that are configured to align with the airbag openings 1305. Further, the envelope 1330 also includes envelope openings 1334 that align with the valve openings 1324 and airbag openings 1305. When the airbag 1301 initially inflates, inflation gases can escape out of the airbag 1301 through the envelope openings 1334, valve openings 1324 and airbag openings 1305. [0109] When the airbag 1301 fully deploys, the valve sheet 1320 is pulled tight, thus moving the valve openings 1324 into a position that is no longer aligned with the airbag openings 1305. This movement blocks the airbag openings 1305 and closes the vent valve. Excess valve sheet 1320 is kept in a folded or looped section 1322 during initial deployment, as shown in FIG. 28. As the valve sheet 1320 tightens, the excess portion is unfolded at the folded section 1322 after breakage of tear zone tabs 1350, allowing for the valve sheet 1320 to move. [0110] In order to maintain the location of the valve sheet 1320 during folding, storage and inflation of the airbag 1301, tear zone tabs 1350 are utilized. The tear zone tabs 1350, in which two are shown in the described embodiment, are created from the valve sheet 1320 material removed to form the valve openings 1324. The tear zone tabs 1350 remain attached (integrally or not) to the valve sheet 1320 along a tear region 1354. A distal end 1352 of each tear zone tab 1350 is sewn, along with the envelope 1330, to the airbag 1301 along sew lines 1340. [0111] As the valve sheet 1320 is pulled, a force is applied to the tear region 1354. When the force overcomes a predetermined force, the tear zone tab 1350 is ripped/torn away from the valve sheet 1320, thus allowing for the valve sheet 1320 to block the airbag openings 1305 and close the vent valve. [0112] The tear region 1354 may be formed by pre-scored sections, or by any other suitable manner. The pre-scored sections may be at a 45 degree angle to an edge of the valve openings 1324, such as shown, for example, in FIG. 31. The 45 degree angle creates discontinuous strands or fibers in the tear zone tabs 1350, thus allowing for the tear zone tabs 1350 to break at a predetermined force. Alternatively, the pre-scored or slit sections may be at any suitable angle, such that the strands or fibers in the tear zone tabs 1350 are discontinuous. [0113] FIGS. 29 and 30 illustrate an alternative embodiment utilizing tear zone tabs 1350. In this embodiment, the valve sheet 1310A does not include an envelope. Rather, the tear zone tabs 1350 wrap around and restrain the folded up excess material 1322 of the valve sheet 1310A. The valve sheet 1310A and tear zone tabs 1350 are stitched to the airbag 1301 by a seam 1340. When the airbag 1301 inflates past a predetermined point, the valve sheet 1310A is pulled and the force of the pull breaks the tear zone tabs 1350. The tear zone tabs 1350 of this embodiment are similar to that shown in FIGS. 28 and 31. Alternatively, the valve sheet 1310A may use a valve guide or any other suitable retainer guide to maintain the initial position of the valve sheet 1310A. [0114] FIGS. 32 to 36 illustrate another embodiment of a passive venting assembly with a vent valve in an airbag 1400. The vent valve includes a valve sheet 1410 and a first vent opening 1405 in a fabric panel 1401. The first vent opening 1405 enables inflation fluid to escape out of the airbag during deployment. In this embodiment, the valve sheet 1410 is attached to the fabric panel 1401 of the airbag 1400. FIGS. 35 and 36 illustrate a first (airbag) vent opening 1405 that comprises a plurality of small vent openings. It will be recognized that the first (airbag) vent opening 1405 may comprise any suitable number, shape and size of openings. [0115] The valve sheet 1410 includes a second vent opening 1424 that is movable relative to the first vent opening 1405. The second vent opening 1424 is shown for exemplary purposes with two openings. It will be recognized that the second vent opening 1424 may comprise any suitable number, shape and size of openings. [0116] The valve sheet 1410 is secured (fixed) at opposite ends to the fabric panel 1401. The valve sheet remains fixed to the airbag 1400 during and after inflation of the airbag 1400. A distal end (not shown) of the valve sheet 1410 is fixed to the fabric panel 1401 away from the first vent opening 1405 by sewn stitches or any other suitable manner. The opposite end of the valve sheet 1410 is fixed closer to the first vent opening 1205 by sewn stitches or any other suitable manner. [0117] The valve sheet 1410 is folded over itself to form a “pocket” (valve guide) 1430 to guide the valve sheet 1410. The sides of one end of the valve sheet 1410 are attached to the fabric panel 1401 by sewn seams 1434 or by another mechanism and the valve sheet 1410 is folded under so that a portion of the valve sheet 1410 is between the pocket 1430 and the fabric panel 1401. The pocket portion 1430 of the valve sheet 1410 may be wider than the remainder of the valve sheet 1410 to accommodate the folded under portion of the valve sheet 1410. [0118] The pocket 1430 includes a pocket (third) vent opening 1432 aligned with the first vent opening 1405. During inflation of the airbag 1400, the valve sheet 1410 is stretched or pulled, thus moving the valve sheet 1410 and second vent opening 1424 relative to and away from the first vent opening 1405, thus blocking the first vent opening 1405 and closing the vent valve. Closing of the valve by blocking the first vent opening 1405 prevents inflation fluid from escaping out of the airbag 1400. [0119] The valve sheet 1410 includes a folded over section of excess material 1422 that is secured by a tear tab 1450, or a plurality of tear tabs 1450 such as shown in FIGS. 32 to 36. The excess material 1422 section is used to align the second vent opening 1424 with the first vent opening 1405. When the valve sheet 1410 is pulled during inflation of the airbag 1400, the force from the pulling of the valve sheet 1410 breaks the tear tabs 1450, releasing the excess material 1422 and moving the second vent opening 1424 away from the first vent opening 1405. [0120] The tear tabs 1450 are integral portions of the valve sheet 1410 that are fixed to the fabric panel 1401 of the airbag 1400. The tear tabs 1450 include a tear area 1451 that is configured to break when a predetermined level of inflation is reached and the valve sheet 1410 is pulled a predetermined amount. The tear area 1451 includes notches and openings which create a weakened area, thus allowing the tear tabs 1450 to break at the predetermined time. [0121] The fibers 1452 in the tear tabs 1450 (and also valve sheet 1410) are at a 45 degree angle to an edge of the second vent opening. The fibers 1452 of the tear tabs 1450 are arranged in an angle such that the fiber strands 1452 are discontinuous at the tear area 1451 to allow the tear tabs 1450 to break when required. FIG. 33 illustrates an example of the fibers 1452 in the tear area 1451. Alternatively, the fibers 1452 may be arranged in any suitable angle such that the fiber strands are discontinuous at the tear area 1451. [0122] FIG. 37 illustrates an alternative embodiment for tear tabs 1550. This embodiment may be used with the tear tabs 1350, 1450 described above. In FIG. 37, the fibers 1551 of the tear tab 1550 are discontinuous in the tear area 1552. By being “discontinuous,” the fibers 1551 do not extend in a single strand beyond the tear area 1552 (notches, etc.). In this embodiment, the notches 1553 are staggered to break up the fibers 1551. This discontinuity enables the tear tabs 1450 to break. Without the discontinuity it is more difficult to control the breaking of the tear tabs 1450 at the predetermined time. [0123] FIG. 38 illustrates a tear tab 1650 without a discontinuity in the fibers 1651 at the tear area 1652. The long fibers 1651 are able to extend past the notches 1653 in the tear area 1652. [0124] An advantage of the tear tabs 1350, 1450, 1550 is to reduce the variability of the tension required to break the tear tabs 1350, 1450, 1550 during inflation. [0125] FIGS. 39-to 40 illustrate another embodiment of a vent valve in an airbag 2000. The vent valve includes a valve sheet 2010 and a first vent opening (not shown) in a fabric panel 2001. FIG. 39 illustrates the valve sheet 2010 when fully extended and before attaching to the airbag 2000. FIG. 40 illustrates the vent valve with the valve partially opened. The first vent opening enables inflation fluid to escape out of the airbag during deployment. In this embodiment, the valve sheet 2010 is attached to the fabric panel 2001 of the airbag 20400. The first (airbag) vent opening, although not shown, may be similar to the airbag (first) vent openings disclosed in previous embodiments. For example, the first airbag vent opening may comprise a plurality of small vent openings or a single opening. It will be recognized that the first (airbag) vent opening may comprise any suitable number, shape and size of openings. [0126] The valve sheet 2010 includes a second vent opening 2024 that is movable relative to the first vent opening. The second vent opening 2024 is shown for exemplary purposes with a single, rectangular opening. It will be recognized that the second vent opening 2024 may comprise any suitable number, shape and size of openings. [0127] The valve sheet 2010 is secured (fixed) at opposite ends to the fabric panel 2001 such that ends of the valve sheet 2010 are not capable of moving relative to the fabric panel 2001 and the valve sheet 2010 remains fixed to the airbag 2000 during and after inflation of the airbag 2000. A distal end 20A of the valve sheet 2010 is fixed to the fabric panel 2001 away from the first vent opening by sewn stitches or any other suitable manner at location 20B. The location 20B is exemplary only and may be in any other suitable location on the fabric panel 2001. In the example shown in FIG. 40, the end 20A of the valve sheet 2010 is attached by a suitable mechanism to location 20B. Thus, when the airbag 2000 inflates and the fabric panel 2001 moves, the end 20A of the valve sheet 2010 moves with the fabric panel 2001, thus, closing the valve. The opposite end of the valve sheet 2010 is integral with a “pocket” (valve guide) 2030 and can be tacked to the fabric panel 2001 with temporary or tack stitching 2036. The tack stitching 2036 will break upon the airbag inflating and pulling the valve sheet 2010 such that the valve sheet 2010 is capable of moving. 101281 The valve sheet 2010 is folded over itself to form the “pocket” (valve guide) 2030 to guide the valve sheet 2010. The valve sheet 2010 is folded under at fold line 2022 F so that a portion of the valve sheet 2010 is between the pocket 2030 and the fabric panel 2001. The pocket portion 2030 of the valve sheet 2010 may be wider than the remainder of the valve sheet 2010 to accommodate the folded under portion of the valve sheet 2010. The pocket portion 2030 is attached to the fabric panel 2034 along sewn stitch line 2034, which are on opposite sides of the pocket portion 2030. In other words, when the opposite stitch lines 2034 and the tack stitching 2036 form a substantially “C” shape. [0128] The pocket 2030 includes a pocket (third) vent opening 2032 aligned with the first vent opening. During inflation of the airbag 2000, the valve sheet 2010 is stretched or pulled, thus moving the valve sheet 2010 and second vent opening 2024 relative to and away from the first vent opening, thus blocking the first vent opening and closing the vent valve. Closing of the valve by blocking the first vent opening prevents inflation fluid from escaping out of the airbag 2000. As can be seen in FIG. 39, the pocket (third) vent opening 2032 is a plurality of openings. However, the vent opening 2032 can comprise a single or a plurality of openings in any suitable shape or size. [0129] The valve sheet 2010 includes a folded over section of excess material 2022, folded along fold line 2022F, that is secured by the tack stitching 2036. The excess material 2022 section is used to align the second vent opening 2024 with the first vent opening. When the valve sheet 2010 is pulled during inflation of the airbag 2000, the force from the pulling of the valve sheet 2010 breaks the tack stitching 2036, releasing the excess material 2022 and moving the second vent opening 20424 away from the first vent opening. [0130] As can be seen in FIGS. 39 and 40, the vent valve comprises valve alignment stitching 2060 that is configured to align and maintain the proper alignment of the valve sheet 2010 within the pocket 2030. When the valve sheet 2010 is within the pocket 2030, the valve sheet 2010 could be moved around during folding, packaging or storing of the airbag 2000. However, with the alignment stitching 2060, the valve sheet 2010 is prevented from moving around within the pocket 2030. The valve alignment stitching 2060 is shown in FIG. 39 as an illustration of the location of the stitching 2060. The alignment stitching 2060 connects the pocket 2030 to the fabric panel 2001 such that the alignment stitching 2060 forms a substantial “C” shape within the second opening 2024. It will be recognized that the alignment stitching 2060 may have any other suitable configuration or shape to prevent the valve sheet 2010 from moving around or “flopping” within the pocket 2030. [0131] FIG. 41 illustrates another embodiment of a vent valve in an airbag with the valve closed. The vent valve includes a valve sheet 2110 and a separate “pocket” (guide) 2130. It will be recognized that the valve sheet 2110 and pocket 2130 may be integrally formed or formed of separate pieces, such as shown in FIG. 41. In an embodiment, the valve sheet 2110 and pocket 2130 may comprise the same material, such as airbag fabric panel, or other stretchy fabric. [0132] The valve sheet 2110 and pocket 210 may be similar to embodiments previously disclosed. The valve sheet 2110 comprises a valve (second) opening 2124 that is configured to align with a first (airbag) opening (not shown) in a fabric panel of an airbag. The pocket 2130 includes third (pocket) openings 2132 that are configured to align with the first opening. The first, second or third openings 2124, 2132 may be a single or a plurality of openings and may have any suitable shape or size. An end 21A of the valve sheet 2110 is configured to attach to a portion of a fabric panel so that when the airbag expands, the fabric panel pulls the end 21A of the valve sheet 2110 to close the vent valve. [0133] The pocket 2130 includes outer pocket seams 2134 configured to attach the pocket 2130 to a fabric panel. The pocket 2130 also includes guide pocket seams 2135 configured to form a guide channel for the valve sheet 2110 to maintain alignment of the valve sheet 2110 within the pocket 2130. The valve sheet 2110 includes guide channels 2128 that correspond with the guide pocket seams 2135. Thus, the outer sides 2110S of the valve sheet 2110 are configured to be located between the corresponding outer pocket seam 2134 and the guide pocket seam 2135. The valve sheet 2110 is capable of moving within the pocket 2130 when the airbag inflates because of the guide channel slits 2128 in the valve sheet 2110. The guide channel slits 2128 are configured such that the guide pocket seams 2135 attach the pocket 2130 to the fabric panel, after the valve sheet 2110 is put into its proper location underneath the pocket 2130 such that the guide pocket seams 2135 extend through the guide channel slits 2128. [0134] The valve sheet 2110 also includes tack stitching 2136 to initially keep a folded section 2122 of the valve sheet in place so that the valve sheet 2110 covers the first airbag opening. When the airbag inflates and pulls the valve sheet 2110, the tack stitching 2136 will be pulled out, thus allowing the valve sheet 2110 to move and close the valve. [0135] Another embodiment of a vent valve in an airbag is shown in FIG. 42. The vent valve includes valve sheet 2210 integrally formed with a “pocket” (guide) 2230. One end 22A of the valve sheet 2210 is attached to a portion of a fabric panel (not shown) in an airbag such that when the airbag inflates, the fabric panel pulls the end 22A of the valve sheet to close the vent valve. The opposite end of the valve sheet 2210 is integrally formed with the pocket 2230 the valve sheet 2210 is folded over itself at a folded portion 2222 to form the pocket 2230. [0136] The pocket 2230 includes pocket seams 2234 to attach the pocket 2230 to the fabric panel. The pocket 2230 also includes tack stitching 2236 which extends through the valve sheet 2210 and fabric panel to help keep the valve sheet 2210 properly aligned with the vent opening in the fabric panel and the pocket 2230. The valve sheet 2210 further includes tear tabs 2250 which are configured to attach sides of the valve sheet 2210 to the fabric panel and help maintain the proper alignment of the valve sheet 2210. When the airbag inflates and the end 22A of the valve sheet is pulled, after a sufficient force is produced, the tack stitching 2236 and tear tabs 2250 can break, thus allowing the valve sheet 2210 to move and cover the vent openings in the fabric panel to close the vent valve. [0137] It will be recognized that the tear tabs and valve assemblies can be used for any type of airbag, such as a driver, passenger, side, or knee airbag. The tear tabs and valve assemblies described above may be used on a dual lobe type airbag configuration, or any other type of cushion configuration. Further, any suitable type, number and size of airbag openings, valves, valve sheet openings and envelope openings may be used. For example, the vents and/or openings may be x-vents, a plurality of holes, or any other suitable type of vent or opening. Further, the airbag may be used in conjunction with a part of or an entire passive tether system, or a plurality of passive tether systems, such as described in any of the above embodiments. [0138] In the embodiments described above, the opposite ends of the valve sheet remain fixed to the fabric panel of the airbag prior to, during and after inflation of the airbag. Alternatively, one or both ends of the valve sheet may be released during inflation of the airbag. [0139] It will be recognized that the tear zone and tear tabs are adjustable at the design stage such that tear forces can be adjusted for the optimal condition. The tear zone/tabs can be adjusted by modifying the perforations in the fabric (slits, openings, etc.). [0140] It will be recognized that any number of tear tabs or tack stitching may be used. Two and four tear tabs are shown in the above described figures. However, one, three, four, or more tear zone tabs may be utilized as appropriate. The tear tabs and valve sheets may be made of webbing, airbag fabric panel material, or any other suitable material. [0141] It will be recognized that the passive venting assembly and airbag shown and described above are exemplary only. Various types of airbags and passive venting assemblies may be used in conjunction with a tear tab. [0142] Embodiments of the invention can provide tear zone tabs without additional material costs for the airbag because the tear zone tabs utilize existing fabric. [0143] It will be recognized that the above embodiments describe an airbag vent (first vent opening) initially open, with the passive venting assemblies then closing/covering the airbag vent during inflation of the airbag, but that the passive venting assemblies may be used to open an initially closed airbag vent. [0144] It will be recognized that any suitable amount of cushion vents (first vent openings) and/or valve sheet vents (second vent openings) may be used. [0145] It will be recognized that the vent guide can have different embodiments. Further, the vent guide can comprise different shapes and components. For example, the vent guide does not need to be a one-piece configuration, but could comprise multiple pieces. Furthermore, the shapes of the vent openings and valve sheet/valve sheet extension can be altered. The vent guide can be comprised of fabric, or any other suitable material. Further, any combination of the above described embodiments may be used. [0146] It will also be recognized that airbag systems using the above disclosed passive venting may or may not include seat sensors (i.e., seat weight sensors, etc.). [0147] Given the disclosure of the present invention, one versed in the art would appreciate that there may be other embodiments and modifications within the scope and spirit of the invention. Accordingly, all modifications attainable by one versed in the art from the present disclosure within the scope and spirit of the present invention are to be included as further embodiments of the present invention. The scope of the present invention is to be defined as set forth in the following claims. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS5213361 *Jun 21, 1991May 25, 1993Takata CorporationAir bagUS5280953 *Nov 25, 1992Jan 25, 1994General Motors CorporationDisplacement responsive air bag ventUS5405166 *Jul 30, 1993Apr 11, 1995Alliedsignal Inc.Air bag with inflation limiterUS5468013 *Aug 25, 1994Nov 21, 1995Trw Inc.Dual air bag system for occupant restraintUS5489119 *Apr 21, 1995Feb 6, 1996Morton International, Inc.Tethers with tearseams for air bag cushionUS5501488 *Apr 28, 1995Mar 26, 1996Morton International, Inc.Airbag with alternate deployment modesUS5513879 *May 4, 1994May 7, 1996Breed Automotive Technology, Inc.Two stage inflator with module venting for passenger side airbagsUS5560649 *Apr 25, 1995Oct 1, 1996Morton International, Inc.Air bag cushion having variable volumeUS5568938 *Oct 8, 1993Oct 29, 1996General Engineering (Netherlands) BvAir-bag arrangementUS5603526 *Jan 16, 1996Feb 18, 1997Morton International, Inc.Pressure vent for air bag cushionUS5704639 *Jul 9, 1996Jan 6, 1998Breed Automotive Technology, Inc.Pressure sensitive airbag vent mechanismUS5853191 *Feb 6, 1997Dec 29, 1998Alliedsignal Inc.Vehicle restraint system with inflation controlUS5931497 *May 22, 1997Aug 3, 1999Trw Occupant Restraint Systems GmbhGas bagUS6139052 *Jul 7, 1997Oct 31, 2000Viwat PreamprasitchaiDual variable inflatable safety systemUS6247726 *Dec 28, 1999Jun 19, 2001Delphi Technologies, Inc.Air bag module with variable inflationUS6308983 *Mar 15, 1999Oct 30, 2001Volkswagon AgSafety device for a motor vehicle with a multi-chamber airbagUS6334627 *Mar 19, 1999Jan 1, 2002Takata-Petri AgVariable-volume air bag for an airbag moduleUS6648371 *Jul 5, 2002Nov 18, 2003Delphi Technologies, Inc.Variable venting air bag assemblyUS6659499 *Jan 9, 2002Dec 9, 2003Trw Vehicle Safety Systems Inc.Air bag with ventUS6669231 *Nov 4, 1998Dec 30, 2003Delphi Technologies, Inc.Adaptive venting for an air bag moduleUS6676158 *Nov 14, 2001Jan 13, 2004Nihon Plast Co., Ltd.Airbag and folding method thereofUS6722691 *Jan 12, 2000Apr 20, 2004Autoliv Development AbAir-bag and a method of deploying an air-bagUS6746045 *Apr 5, 2002Jun 8, 2004Ford Global Technologies, LlcAir bag inflator gas venting systemUS6773030 *Jul 24, 2002Aug 10, 2004Trw Vehicle Safety Systems Inc.Air bag with ventUS6796583 *Aug 22, 2001Sep 28, 2004Milliken & CompanyAir bag tether system comprising multi-segment tethersUS6799777 *Nov 15, 2002Oct 5, 2004Delphi Technologies, Inc.Apparatus and methods of venting gas in an airbag moduleUS6830265 *Apr 16, 2003Dec 14, 2004Key Safety Systems, Inc.Apparatus for actuating a flap for the venting of inflation gasesUS6832778 *Jul 19, 2002Dec 21, 2004Delphi Technologies, Inc.Air bag restraint including selectively operable venting elementsUS6834886 *Oct 27, 2003Dec 28, 2004Takata CorporationAirbag deviceUS6869101 *Mar 19, 2004Mar 22, 2005Key Safety Systems, Inc.Airbag with bag mounted sensorUS6918613 *Apr 23, 2004Jul 19, 2005Ford Global Technologies, LlcAir bag inflator gas venting systemUS6932385 *Feb 24, 2003Aug 23, 2005Delphi Technologies, Inc.Air bag restraint including selectively operable venting elementsUS6945559 *Sep 19, 2002Sep 20, 2005Delphi Technologies, Inc.Method and apparatus for air bag ventingUS6959945 *Jun 28, 2004Nov 1, 2005Trw Vehicle Safety Systems Inc.Air bag module with vent controlled by tetherUS6991258 *Feb 20, 2002Jan 31, 2006Delphi Technologies, Inc.Frontal air bag systemUS7000943 *Dec 1, 2003Feb 21, 2006Takata CorporationAirbag and airbag systemUS7134691 *May 17, 2002Nov 14, 2006Delphi Technologies, Inc.Air bag cushion including break-away tethersUS7264268 *Aug 22, 2005Sep 4, 2007Tk Holdings Inc.Air bagUS7314228 *Jul 7, 2005Jan 1, 2008Toyoda Gosei Co., Ltd.Airbag deviceUS7445237 *Sep 28, 2006Nov 4, 2008Chrysler LlcAir bag ventUS7497469 *Jul 5, 2007Mar 3, 2009Trw Automotive GmbhAirbag for a vehicle occupant restraint systemUS7793978 *Sep 14, 2010Toyoda Gosei Co. Ltd.Constrained airbag deployment using an external tetherUS20010033072 *Feb 6, 2001Oct 25, 2001Masayoshi KumagaiAirbag deviceUS20010035639 *Apr 17, 2001Nov 1, 2001Ichiro AmamoriAirbag device with tearable strapUS20020175511 *May 17, 2002Nov 28, 2002Delphi Technologies, Inc.Air bag cushion including break-away tethersUS20030218325 *Apr 24, 2003Nov 27, 2003Takata CorporationAirbag with tie panelUS20040012180 *Feb 24, 2003Jan 22, 2004Hawthorn Laura AdelleAir bag restraint including selectively operable venting elementsUS20040017069 *Jul 24, 2002Jan 29, 2004Trw Vehicle Safety Systems Inc.Air bag with ventUS20040051285 *Sep 16, 2002Mar 18, 2004Trw Vehicle Safety Systems Inc.Air bag module with vent controlled by tetherUS20040051286 *Jun 23, 2003Mar 18, 2004Trw Vehicle Safety Systems Inc.Air bag module vent with releasable latchUS20040056459 *Sep 19, 2002Mar 25, 2004Kassman Mark E.Method and apparatus for air bag ventingUS20040145160 *Sep 29, 2003Jul 29, 2004Takata CorporationAirbag and airbag deviceUS20040145161 *Sep 29, 2003Jul 29, 2004Takata CorporationAirbag and airbag apparatusUS20040150200 *Jan 8, 2004Aug 5, 2004Toyoda Gosei Co., Ltd.AirbagUS20040155439 *Feb 5, 2004Aug 12, 2004Takata CorporationAirbag, airbag device and vehicleUS20040155440 *Feb 5, 2004Aug 12, 2004Takata CorporationAirbag and airbag apparatusUS20040155443 *Apr 16, 2003Aug 12, 2004Brian FordApparatus for actuating a flap for the venting of inflation gasesUS20040160041 *Feb 5, 2004Aug 19, 2004Takata CorporationAirbag device and airbagUS20040188990 *Apr 23, 2004Sep 30, 2004Ford Global Technologies, LlcAir bag inflator gas venting systemUS20050029781 *Aug 8, 2003Feb 10, 2005Enders Mark L.Dual cushion passenger airbagUS20050040634 *Aug 13, 2004Feb 24, 2005Trw Vehicle Safety Systems Inc.Air bag module with locking member for locking the position of a vent memberUS20050040635 *Sep 17, 2004Feb 24, 2005Delphi Technologies, Inc.Apparatus and methods of venting gas in an airbag moduleUS20050057030 *Sep 15, 2003Mar 17, 2005Trw Vehicle Safety Systems Inc.Air bag with active tear stitch tethersUS20050098990 *Dec 16, 2004May 12, 2005Delphi Technologies, Inc.Air bag restraint including selectively operable venting elementsUS20050104339 *Oct 15, 2004May 19, 2005Takata CorporationAirbag and airbag deviceUS20050110249 *Oct 27, 2004May 26, 2005Takata CorporationAirbag, airbag apparatus, and vehicleUS20050127648 *Jan 28, 2005Jun 16, 2005Trw Vehicle Safety Systems Inc.Air bag module with vent controlled by tetherUS20050146122 *Feb 23, 2005Jul 7, 2005Trw Vehicle Safety Systems Inc.Air bag module with locking member for locking the position of a vent memberUS20050161918 *Jan 21, 2005Jul 28, 2005Toyoda Gosei Co., Ltd.Airbag device for front passenger's seatUS20050184489 *Jan 31, 2005Aug 25, 2005Takata CorporationTwin airbag apparatusUS20050194769 *Mar 8, 2005Sep 8, 2005Takata CorporationAirbag and airbag systemUS20050236822 *Apr 27, 2004Oct 27, 2005Rose Larry DCushion venting design for out of position occupant protectionUS20050248137 *Jul 14, 2005Nov 10, 2005Trw Vehicle Safety Systems Inc.Air bag module with vent controlled by tetherUS20060125219 *Nov 17, 2005Jun 15, 2006Takata CorporationPassenger protection deviceUS20060181067 *Feb 17, 2005Aug 17, 2006Tk Holdings, Inc.Airbag apparatus with adaptive inflationUS20060237953 *Apr 13, 2006Oct 26, 2006Takata CorporationAirbag and airbag apparatusUS20070132222 *Dec 8, 2005Jun 14, 2007Thomas Scott DAir bag with a supported channelUS20070145729 *Nov 16, 2006Jun 28, 2007Toyoda Gosei Co., Ltd.Airbag apparatusUS20070152435 *Jan 3, 2006Jul 5, 2007Patrick JamisonCushion break stitch patternUS20070182144 *Feb 2, 2007Aug 9, 2007Trw Automotive GmbhGas bagUS20070210568 *Mar 7, 2006Sep 13, 2007Thomas Scott DSimplified restraining tether system for use with a vehicle air bag systemUS20080073892 *Sep 27, 2006Mar 27, 2008Rose Larry DAirbag cushion with a flap vent to optionally vent gas for out-of-position conditionsUS20080179866 *Jan 22, 2008Jul 31, 2008Tk Holdings Inc.Airbag Cushion* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS7510212 *Mar 26, 2007Mar 31, 2009Autoliv Asp, Inc.Airbag tether cutter and vent closerUS7556290 *Jul 7, 2009Autoliv Asp, Inc.Airbag cushion with a laced vent to optionally vent gas for out-of-position conditionsUS7568729Dec 7, 2005Aug 4, 2009Autoliv Asp, Inc.Locking mechanism for a cinch tube of an airbag cushionUS7597355Oct 27, 2006Oct 6, 2009Autoliv Asp, Inc.Airbag cushions with optional venting for out-of-position conditionsUS7597356 *Jun 5, 2007Oct 6, 2009Autoliv Asp, Inc.Airbag cushions with gas deflectors and optional venting for out-of-position conditionsUS7614653Nov 10, 2009Autoliv Asp, Inc.Pre-folded airbag cushion with optional venting for out-of-position conditionsUS7614654Dec 7, 2005Nov 10, 2009Autoliv Asp, Inc.Airbag cushion with diffuser with cinch tube to vent gas for out-of-position conditionsUS7690683 *Mar 26, 2007Apr 6, 2010Autoliv Asp, Inc.Airbag with automatic vent closerUS7722079 *Feb 5, 2008May 25, 2010Hyundai Mobis Co., Ltd.Airbag cushionUS7722080Sep 27, 2006May 25, 2010Autoliv Asp, Inc.Airbag cushion with a flap vent to optionally vent gas for out-of-position conditionsUS7748738Sep 27, 2006Jul 6, 2010Autoliv Asp, Inc.Airbag cushion with adaptive diffuser for out-of-position conditionsUS7770926Aug 9, 2007Aug 10, 2010Autoliv Asp, Inc.Airbag adaptive venting for out-of-position occupantsUS7862082 *Aug 20, 2008Jan 4, 2011Gm Global Technology Operations, Inc.Air bag inflation baffleUS7931299 *Apr 26, 2011Tk Holdings, Inc.Low risk deployment airbag cushionUS7938444Oct 14, 2008May 10, 2011Autoliv Asp, Inc.Mounting bracket for tether release mechanismUS7938445May 10, 2011Autoliv Asp, Inc.Dual chamber airbag cushions with a safety vent in the front chamberUS7946613May 24, 2011Autoliv Asp, Inc.Dual chamber airbag cushionUS7967331 *Jun 28, 2011Hyundai Motor CompanyPassenger airbag structure of vehicleUS7980593 *May 8, 2009Jul 19, 2011Autoliv Development AbAirbag module having a tether holderUS7988194Mar 31, 2009Aug 2, 2011Tk Holdings Inc.Airbag apparatusUS8152199Dec 9, 2010Apr 10, 2012Tk Holdings Inc.Passive airbag ventingUS8191925Jun 5, 2012Autoliv Asp, Inc.Dynamic safety ventUS8226118Aug 5, 2009Jul 24, 2012Autoliv Asp, Inc.Safety venting with passively closeable ventsUS8308190 *Dec 21, 2010Nov 13, 2012Tk Holdings Inc.Buckle airbagUS8353525Mar 23, 2011Jan 15, 2013Autoliv Asp, Inc.Pyrotechnic tether release assembly with a break-away piston for inflatable airbagsUS8408584Mar 23, 2011Apr 2, 2013Autoliv Asp, Inc.Pyrotechnic tether release assembly for inflatable airbagsUS8408585Mar 22, 2012Apr 2, 2013Autoliv Asp, Inc.Pyrotechnic tether release assembly for inflatable airbagsUS8419056 *Jul 10, 2012Apr 16, 2013Toyoda Gosei Co. Ltd.Dynamic airbag ventingUS8646808Jun 18, 2012Feb 11, 2014Autoliv Asp, Inc.Airbag with active ventUS8651521Apr 9, 2010Feb 18, 2014Autoliv Development AbAirbag module having an airbag with an adaptive ventilation openingUS8672349Jul 11, 2012Mar 18, 2014Tk Holdings Inc.AirbagUS8684404 *Sep 13, 2012Apr 1, 2014Trw Vehicle Safety Systems Inc.Air bag with variable ventingUS8684407 *Oct 27, 2010Apr 1, 2014Trw Vehicle Safety Systems Inc.Air bag with height adaptive tetherUS8696022 *May 29, 2012Apr 15, 2014Trw Vehicle Safety Systems Inc.Air bag with variable ventingUS8882143Feb 8, 2013Nov 11, 2014Autoliv Asp, Inc.Airbag with slit ventUS8944462 *Apr 15, 2011Feb 3, 2015Trw Vehicle Safety Systems Inc.Air bag with uninflated pocketUS9150188Oct 2, 2014Oct 6, 2015Autoliv Asp, Inc.Airbag with slit ventUS9227592 *Jul 17, 2014Jan 5, 2016Autoliv Development AbAirbag module with an airbag exhibiting a vent opening closed in the folded state by an arrester strap and procedure of its manufactureUS20070126219 *Dec 7, 2005Jun 7, 2007Williams Jeffrey DAirbag cushion with diffuser and cinch tube to vent gas for out-of-position conditionsUS20070187936 *Feb 9, 2007Aug 16, 2007Trw Automotive Safety Systems GmbhImpact protection device for a vehicle occupantUS20080073890 *Sep 27, 2006Mar 27, 2008Williams Jeffrey DAirbag cushion with a laced vent to optionally gas for out-of-position conditionsUS20080203713 *Apr 30, 2008Aug 28, 2008Tk Holdings Inc.Low risk deployment airbag cushionUS20080238050 *Mar 26, 2007Oct 2, 2008Green David JAirbag tether cutter and vent closerUS20080238062 *Mar 26, 2007Oct 2, 2008Brent ParksAirbag with automatic vent closerUS20080252054 *Feb 11, 2008Oct 16, 2008Hyundai Mobis Co., Ltd.Air bag cushionUS20080303256 *Jun 5, 2007Dec 11, 2008Autoliv Asp, Inc.Airbag cushions with gas deflectors and optional venting for out-of-position conditionsUS20090152850 *Feb 5, 2008Jun 18, 2009Hyundai Mobis Co., Ltd.Airbag cushionUS20090152853 *Nov 19, 2008Jun 18, 2009Hyundai Motor CompanyPassenger Airbag Structure of VehicleUS20090236839 *Mar 31, 2009Sep 24, 2009Tk Holdings Inc.Airbag apparatusUS20090256338 *Apr 14, 2008Oct 15, 2009Autoliv Asp, Inc.Dynamic safety ventUS20090278341 *May 8, 2009Nov 12, 2009Delphi Technologies, Inc.Airbag module having a tether holderUS20100045006 *Aug 20, 2008Feb 25, 2010Gm Global Technology Operations, Inc.Air Bag Inflation BaffleUS20100090445 *Oct 14, 2008Apr 15, 2010Autoliv Asp, Inc.Mounting bracket for tether release mechanismUS20100225094 *Mar 3, 2009Sep 9, 2010Autoliv Asp, Inc.Dual chamber airbag cushionUS20110031725 *Aug 5, 2009Feb 10, 2011Autoliv Asp, Inc.Safety venting with passively closeable ventsUS20110079988 *Apr 7, 2011Tk Holdings, Inc.Passive airbag ventingUS20110148081 *Dec 21, 2010Jun 23, 2011Tk Holdings Inc.Buckle airbagUS20120104734 *Oct 27, 2010May 3, 2012Trw Vehicle Safety Systems Inc.Air bag with height adaptive tetherUS20120235393 *May 29, 2012Sep 20, 2012Trw Vehicle Safety Systems Inc.Air bag with variable ventingUS20120261910 *Apr 15, 2011Oct 18, 2012Trw Vehicle Safety Systems Inc.Air bag with uninflated pocketUS20120274054 *Nov 1, 2012Parks Robert ADynamic airbag ventingUS20130026744 *Jan 31, 2013Trw Vehicle Safety Systems Inc.Air bag with variable ventingUS20150028571 *Jul 17, 2014Jan 29, 2015Autoliv Development AbAirbag Module With an Airbag Exhibiting a Vent Opening Closed in the Folded State by an Arrester Strap and Procedure of its ManufactureUS20150108743 *Dec 23, 2014Apr 23, 2015Trw Vehicle Safety Systems Inc.Air bag with uninflated pocketUS20150115584 *Oct 31, 2013Apr 30, 2015Ford Global Technologies, LlcPartial low risk deployment vent assembly for an airbag assemblyUS20150336534 *Feb 18, 2015Nov 26, 2015Hyundai Mobis Co., Ltd.Airbag apparatusEP2686208A1 *Dec 12, 2011Jan 22, 2014Key Safety Systems, Inc.Airbag vent assemblyEP2686208B1 *Dec 12, 2011Jul 1, 2015Key Safety Systems, Inc.Airbag vent assemblyWO2013182282A1 *May 29, 2013Dec 12, 2013Trw Automotive GmbhAdaptive knee airbag for vehicle occupant restraint deviceWO2015120039A1 *Feb 4, 2015Aug 13, 2015Key Safety Systems Inc.Driver side airbag module with improved ventWO2016077680A1 *Nov 13, 2015May 19, 2016Key Safety Systems, Inc.Driver airbag module and bag with passively vented cushion* Cited by examinerClassifications U.S. Classification280/740, 280/743.2International ClassificationB60R21/23, B60R21/26Cooperative ClassificationB60R21/2338, B60R21/239, B60R2021/23382, B60R21/233, B60R2021/2395, B60R2021/23384European ClassificationB60R21/2338, B60R21/233, B60R21/239Legal EventsDateCodeEventDescriptionJan 24, 2007ASAssignmentOwner name: TK HOLDINGS, INC.,MICHIGANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:BAUER, BARNEY J.;BOUMARAFI, MOE M.;BOSCH, JEROME;AND OTHERS;SIGNING DATES FROM 20061206 TO 20061219;REEL/FRAME:018839/0077Owner name: TK HOLDINGS, INC., MICHIGANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:BAUER, BARNEY J.;BOUMARAFI, MOE M.;BOSCH, JEROME;AND OTHERS;SIGNING DATES FROM 20061206 TO 20061219;REEL/FRAME:018839/0077Mar 12, 2015FPAYFee paymentYear of fee payment: 4RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services