초록 ▼

An assembly of efficient construction and operation to hold restraining air bag tethers to a shortened operative length under a first set of conditions and to extend such tethers under a second set of conditions. The extension of the restraining tethers is carried out in conjunction with the deliver

An assembly of efficient construction and operation to hold restraining air bag tethers to a shortened operative length under a first set of conditions and to extend such tethers under a second set of conditions. The extension of the restraining tethers is carried out in conjunction with the delivery of an increased volume of inflating gas to the air bag cushion. The air bag assembly may be operated using as few as two activatable initiators to activate inflation stages while simultaneously controlling tether length to effect delivery of a proper volume of inflation gas for a desired cushion profile.

대표청구항 ▼

1. An air bag assembly for cushioning restraint of an occupant in a vehicle during an impact event, the air bag assembly comprising:a gas emitting inflator, the inflator including a first selectively activatable initiator adapted to activate the release of a first volume of inflation gas and at leas

1. An air bag assembly for cushioning restraint of an occupant in a vehicle during an impact event, the air bag assembly comprising:a gas emitting inflator, the inflator including a first selectively activatable initiator adapted to activate the release of a first volume of inflation gas and at least a second selectively activatable initiator, the first initiator being activatable either independently from the second initiator or in conjunction with activation of the second initiator such that upon activation of both the first initiator and the second initiator a second volume of inflation gas is released which is greater than the first volume of inflation gas; an inflatable air bag cushion in fluid communication with the inflator such that upon discharge of inflation gas from the inflator the air bag cushion is inflated to a deployed state; at least one profile restraining tethering element operatively connected to the air bag cushion, a restraint assembly operatively coupled to the profile restraining tethering element remote from the air bag cushion such that the profile restraining tethering element is held in a shortened operative condition, said restraint assembly remaining coupled to the profile restraining tethering element in response to activation of the first initiator, and adapted to release the profile restraining tethering element in response to activation of both the first initiator and the second initiator. 2. The invention according to claim 1, wherein the first initiator is a pyrotechnic squib.3. The invention according to claim 1, wherein both the first initiator and the second initiator are pyrotechnic squibs.4. The invention according to claim 1, wherein the inflator includes a primary gas transfer path adapted to transfer inflation gas into the air bag cushion upon release of the first volume of inflation and a secondary gas transfer path adapted to transfer inflation gas the restraint assembly upon release of the second volume of inflation gas and wherein the secondary gas transfer path is isolated from inflation gas transmission prior to activation of the second initiator.5. The invention according to claim 4, wherein the secondary gas transfer path is bounded by a diffuser with a displaceable plug element disposed within the diffuser, the displaceable plug element being adapted to move in response to gas pressure such that upon introduction of inflation gas into the secondary gas transfer path the displaceable plug element is moved at least partially along the diffuser.6. The invention according to claim 5, wherein the displaceable plug element is adapted to at least partially block fluid transfer across the diffuser and into the air bag cushion prior to movement of the displaceable plug element.7. The invention according to claim 6, wherein at least the secondary gas transfer path is normally sealed from inflation gas by a sealing element which is selectively opened upon activation of the second initiator.8. The invention according to claim 7, wherein the sealing element comprises a rupture disk.9. The invention according to claim 8, wherein the rupture disk sealing the secondary gas transfer path is adapted to spontaneously rupture upon application of a gas pressure generated by activation of the first initiator in conjunction with activation of the second initiator.10. The invention according to claim 8, wherein the air bag assembly includes a displaceable puncture element adapted to puncture the rupture disk upon activation of the second initiator such that the rupture disk is opened and inflation gas is conveyed into the secondary gas transfer path.11. An air bag assembly for cushioning restraint of an occupant in a vehicle during an impact event, the air bag assembly comprising:a gas emitting inflator, the inflator including a first selectively activatable initiator adapted to activate the release of a first volume of inflation gas and at least a second selectively activatable initiator, the first initiator being activatable either independently from the second initiator or in conjunction with activation of the second initiator such that upon activation of both the first initiator and the second initiator a second volume of inflation gas is released which is greater than the first volume of inflation gas; an inflatable air bag cushion in fluid communication with the inflator such that upon discharge of inflation gas from the inflator the air bag cushion is inflated to a deployed state; at least one profile restraining tethering element operatively connected to the air bag cushion, and a restraint assembly operatively connected in releasable relation to the tethering element remote from the air bag cushion such that the profile restraining tethering element is normally held in a shortened operative condition, the restraint assembly including at least one support member normally disposed in operative supporting relation to the profile restraining tethering element and a displaceable carrier element adapted to carry the profile restraining tethering element away from supported relation at the support member upon activation of both the first initiator and the second initiator, such that the profile restraining tethering element is released from operative connection to the restraint assembly in response to emission of said second volume of inflation gas. 12. The invention according to claim 11, wherein the first initiator is a pyrotechnic squib.13. The invention according to claim 11, wherein both the first initiator and the second initiator are pyrotechnic squibs.14. The invention according to claim 11, wherein the inflator includes a primary gas transfer path adapted to transfer inflation gas into the air bag cushion upon release of the first volume of inflation and a secondary gas transfer path adapted to transfer inflation gas into the air bag cushion upon release of the second volume of inflation gas and wherein the secondary gas transfer path is isolated from inflation gas transmission prior to activation of the second initiator.15. The invention according to claim 14, wherein the secondary gas transfer path is bounded by a diffuser with a displaceable plug element disposed within the diffuser, the displaceable plug element being operatively connected to the displaceable carrier element, the displaceable plug element being adapted to move in response to gas pressure such that upon introduction of inflation gas into the secondary gas transfer path the displaceable plug element is moved at least partially along the diffuser and the displaceable carrier element undergoes displacement so as to carry the profile restraining tethering element away from supported relation at the support member.16. The invention according to claim 15, wherein the displaceable plug element is adapted to at least partially block fluid transfer through across the diffuser and into the air bag cushion prior to movement of the displaceable plug element.17. The invention according to claim 16, wherein at least the secondary gas transfer path is normally sealed from inflation gas by a sealing element which is selectively opened upon activation of the second gas generator.18. The invention according to claim 17, wherein the sealing element comprises a rupture disk.19. The invention according to claim 18, wherein the rupture disk sealing the secondary gas transfer path is adapted to spontaneously rupture upon application of a gas pressure generated by activation of the first initiator in conjunction with activation of the second initiator.20. The invention according to claim 18, wherein the air bag assembly includes a displaceable puncture element adapted to puncture the rupture disk upon activation of the second initiator such that the rupture disk is opened and inflation gas is conveyed into the secondary gas transfer path.21. An air bag assembly for cushioning restraint of an occupant in a vehicle during an impact event, the air bag assembly comprising:a gas emitting inflator, the inflator including a first selectively activatable pyrotechnic initiator adapted to activate release of a first volume of inflation gas and at least a second selectively activatable pyrotechnic initiator, the first initiator being activatable either independently from the second initiator or in conjunction with the second initiator such that upon activation of both the first initiator and the second initiator a second volume of inflation gas is released which is greater than the first volume of inflation gas; an inflatable air bag cushion in fluid communication with the inflator such that upon discharge of inflation gas from the inflator the air bag cushion is inflated to a deployed state; at least one profile restraining tethering element operatively connected to the air bag cushion, the tethering element further normally being operatively connected in releasable relation to a restraint assembly remote from the air bag cushion such that the profile restraining tethering element is normally held in a shortened operative condition, the restraint assembly including at least one support member normally disposed in operative supporting relation to the profile restraining tethering element and a displaceable carrier element adapted to carry the profile restraining tethering element out of operative supported relation at the support member upon activation of both the first initiator and the second initiator and wherein displacement of the carrier element is initiated by activation of the first initiator in conjunction with activation of the second initiator without any additional activatable initiator, wherein the inflator includes a primary gas transfer path adapted to transfer inflation gas into the air bag cushion upon release of the first volume of inflation and a secondary gas transfer path adapted to transfer inflation gas into the air bag cushion upon release of the second volume of inflation gas, the secondary gas transfer path being bounded by a diffuser with a displaceable plug element disposed within the diffuser, the displaceable plug element being operatively connected to the displaceable carrier element, the displaceable plug element being adapted to move in response to gas pressure such that upon introduction of inflation gas into the secondary gas transfer path the displaceable plug element is moved at least partially along the diffuser and the displaceable carrier element undergoes displacement so as to carry the profile restraining tethering element away from supported relation at the support member, and wherein the displaceable plug element is adapted to at least partially block fluid transfer through across the diffuser and into the air bags cushion prior to movement of the displaceable plug element. 22. The invention according to claim 21, wherein at least the secondary gas transfer path is normally sealed from inflation gas by a sealing element which is selectively opened upon activation of the second gas generator.