대표
청구항
▼
The invention claimed is: 1. An inflator, comprising: a pressurized medium chamber defined by an outer shell formed of a cylindrical pressurized medium chamber housing and charged with a pressurized medium; a gas generator connected to one end of the pressurized medium chamber and including ignition means and a gas generating agent accommodated in a gas generator housing; a diffuser portion connected to the other end of the pressurized medium chamber; a first rupturable plate that closes a first opening between the pressurized medium chamber and the gas...
The invention claimed is: 1. An inflator, comprising: a pressurized medium chamber defined by an outer shell formed of a cylindrical pressurized medium chamber housing and charged with a pressurized medium; a gas generator connected to one end of the pressurized medium chamber and including ignition means and a gas generating agent accommodated in a gas generator housing; a diffuser portion connected to the other end of the pressurized medium chamber; a first rupturable plate that closes a first opening between the pressurized medium chamber and the gas generator; a second rupturable plate that closes a second opening between the pressurized medium chamber and the diffuser portion; a cap having a gas ejecting hole for ejecting combustion gas generated by the gas generating agent only in a radial direction and then forcing the ejected combustion gas to flow along a longitudinal direction of the pressurized medium chamber, the cap covering the first rupturable plate from the pressurized medium chamber side, wherein at least one selected from the following requirements (a), (b), and (c) is provided, (a) an inner wall surface of the pressurized medium chamber housing is rough, (b) the gas ejecting hole is oriented such that combustion gas ejected from the gas ejecting hole does not strike against an inner wall surface of the pressurized medium chamber housing; and (c) a barrier member is disposed in the vicinity of the gas ejecting hole, and combustion gas ejected from the gas ejecting hole moves after the combustion gas strikes against the barrier member. 2. An inflator, according to claim 1, wherein the cap has a flange portion formed by outwardly folding a peripheral edge portion of an opening thereof and is fixed at the flange portion by crimping part of the gas generator housing. 3. An inflator according to claim 1, wherein the housing forming the pressurized medium chamber is symmetrical in the axial and radial directions. 4. An inflator according to claim 1, wherein a pressurized medium charging hole is formed in a side wall of the pressurized medium chamber housing, and the charging hole is closed by a pin after the pressurized medium is charged. 5. An inflator according to claim 1, wherein, in the gas generating agent, a melting point of combustion residues produced by combustion of the gas generating agent is not less than a discharging temperature of a gas generated by the gas generating agent. 6. An inflator for inflating an air bag with combustion gas generated by combustion of a gas generating agent and a pressurized medium, comprising: a pressurized gas chamber defined by an outer shell formed of a cylindrical pressurized gas chamber housing and charged with a pressurized gas; a gas generator connected to the pressurized gas chamber and including ignition means and a gas generating agent accommodated in a gas generator housing; a diffuser portion connected to the pressurized gas chamber at a portion other than the gas generator; a first rupturable plate that closes a first opening between the pressurized gas chamber and the gas generator; a second rupturable plate that closes a second opening between the pressurized gas chamber and the diffuser portion; and a cap member having a plurality of gas ejecting holes through which gas passes only in a radial direction, the cap member preventing a fragment of at least one of pieces generated by breaking the first rupturable plate and the second rupturable plate and a combustion residue contained in combustion gas generated by the gas generating agent from flowing outside the inflator by the cap member. 7. An inflator according to claim 6, wherein the cap member is disposed inside the pressurized gas chamber and covers the first rupturable plate from a side of the pressurized gas chamber. 8. An inflator, according to claim 6, wherein the cap member is a cylindrical member having one end opened and the other end closed, and the plurality of gas ejecting holes are provided in a peripheral wall thereof. 9. An inflator according to claim 6, wherein a relationship between a distance L from a closed end surface of the cap member to a gas ejecting hole closest to the closed end surface and a diameter D of the rupturable plate satisfies the following formula: L≧D/2. 10. An inflator according to claim 9, wherein the distance L is 3 to 8 mm. 11. An inflator according to claim 6, wherein diameters of the plurality of the gas ejecting holes in the cap member are 0.5 to 2 mm. 12. An inflator according to claim 6, wherein a total opening area of the plurality of the gas ejecting holes in the cap member is 20 to 1000 mm2. 13. An inflator according to claim 6, wherein the cap member is disposed such that the axial direction of the cap member and the axial direction of the pressurized gas chamber housing coincide with each other. 14. An inflator according to claim 6, further comprising: means for changing a flow direction of the combustion gas by the cap member, making the combustion residue adhere to at least one portion of a wall surface of said means for changing the flow direction, and making the combustion gas contact with the pressurized gas to cool and solidify the combustion residue due to a temperature difference, wherein a melting point of the combustion residue is not less than a discharging temperature of a gas generated by the gas generating agent. 15. An inflator according to claim 6, wherein the cap member has a flange portion formed by outwardly folding a peripheral edge portion of an opening and is fixed at the flange portion by crimping part of the gas generator housing. 16. An inflator according to claim 6, wherein the housing forming the pressurized gas chamber is symmetrical in the axial and radial directions. 17. An inflator according to claim 6, wherein a pressurized gas charging hole is formed in a side wall of the pressurized gas chamber housing, and the charging hole is closed by a pin after the pressurized gas is charged. 18. An inflator according to claim 17, wherein the pin protrudes into the pressurized gas chamber and the protruding portion thereof has such a length that combustion gas flow of the gas generating agent strikes against the protruding portion. 19. An inflator according to claim 6, wherein the gas generator housing and the pressurized gas chamber housing are connected to each other by resistance-welding. 20. An inflator according to claim 6, wherein, in the gas generating agent, a melting point of combustion residue is not less than a discharging temperature of a gas generated by the gas generating agent. 21. An inflator according to claim 6, wherein the gas generating agent includes 20 to 60 mass % of nitroguanidine and 80 to 40 mass % of an oxidizing agent. 22. An inflator according to claim 6, wherein the pressurized gas comprises argon and helium. 23. An inflator according to claim 6, wherein a ratio (A/B) of mole number (A) of the pressurized gas and a mole number (B) of a gas generated by combustion of the gas generating agent is 0.2 to 10. 24. An inflator for inflating an air bag with pressurized gas and combustion gas generated by combustion of a gas generating agent, comprising the following requirements (1) to (6): (1) pressurized gas containing an inert gas and substantially no oxygen; (2) in the gas generating agent, a pressure index obtained by the following formula: rb=αPn being 0.8 or less, where in the formula, rb: burning velocity, α: coefficient, P: pressure, and n: pressure index; (3) a ratio A1/A2 of an amount, in mole number, of pressurized gas (A1) and an amount, in mole number, of gas generated by combustion of a gas generating agent (A2) being 1 to 20; (4) a ratio B1/B2 of a mass (B1) of pressurized gas (B1) and a mass (B2) of a gas generating agent being 1 to 20; (5) a mass of a gas generating agent being 0.5 to 30 g; and (6) a charging pressure of pressurized gas being 30,000 to 67, 000 kPa. 25. An inflator according to claim 24, wherein, in the requirement (2), a combustion flame temperature of the gas generating agent is not more than 3000째 C. 26. An inflator according to claim 24, wherein, in the requirement (2), the gas generating agent is a non-azide gas generating agent. 27. An inflator according to claim 24, further comprising: (7) a ratio A1/C of an amount, in mole numbers, (A1) of the pressurized gas and a total surface area (cm2) (C) of the gas generating agent being 0.004 to 0.05 mole/cm2. 28. An inflator according to claim 24, further comprising: (8) a ratio C/E of a total surface area (cm2) (C) of the gas generating agent and a total area (cm2) (E) of the gas discharging hole being 0.5 to 4. 29. An inflator according to claim 24, wherein the inflator has a pressurized gas chamber having an outer shell formed by a cylindrical pressurized gas chamber housing and charged with pressurized gas, and an outer diameter of the pressurized gas chamber housing is preferably not more than 40 mm. 30. An inflator according to claim 24, wherein the inflator has a pressurized gas chamber having an outer shell formed by a cylindrical pressurized gas chamber housing and charged with pressurized gas, and a ratio (L/D) of an outer diameter (D) and a length (L) of the pressurized gas chamber housing is preferably 1 to 10. 31. An inflator according to claim 24, wherein the inflator has a pressurized gas chamber having an outer shell formed by a cylindrical pressurized gas chamber housing and charged with pressurized gas, and the pressurized gas chamber housing is symmetrical regarding the axial and radial directions. 32. An inflator according to claim 24, wherein the inflator has a pressurized gas chamber having an outer shell formed by a cylindrical pressurized gas chamber housing and charged with pressurized gas, and the pressurized gas chamber housing is symmetrical regarding the axial and radial directions and both ends thereof are reduced in diameter. 33. An inflator according to claim 24, wherein the inflator has a pressurized gas chamber having an outer shell formed by a cylindrical pressurized gas chamber housing and charged with pressurized gas, a pressurized gas charging hole is formed in a side surface of the pressurized gas chamber housing, and the gas charging hole is closed by a pin after the pressurized gas is charged. 34. An inflator according to claim 33, wherein the pin is protruding into the pressurized gas chamber housing and a protruding portion thereof has such a length that combustion gas flow strikes against the protruding portion. 35. An inflator according to claim 24, wherein the inflator includes, a pressurized gas chamber having an outer shell formed by a cylindrical pressurized gas chamber housing and charged with pressurized gas, a gas generator having an outer shell formed by a gas generator housing and including an ignition means and a gas generating agent inside the housing, and a diffuser portion, wherein the gas generator housing is connected to one end of the pressurized gas chamber housing and the diffuser portion is connected to the other end of the pressurized gas housing, and a first rupturable plate closes between the pressurized gas chamber and the gas generator and a second rupturable plate closes between the pressurized gas chamber and the diffuser portion. 36. An inflator according to claim 35, wherein a cap having a gas ejecting hole provided in at least one of a side surface and an end surface thereof covers the first rupturable plate from the pressurized gas chamber side. 37. An inflator according to claim 35, wherein the gas generator housing and the pressurized gas chamber housing, and the diffuser portion and the pressurized gas chamber housing are connected by resistance-welding. 38. An inflator according to claim 35, wherein the outer diameters of the pressurized gas chamber housing, the gas generator housing and the diffuser portion are equal or approximate to one another. 39. An air bag system provided with an actuation-signal outputting means, comprising: an impact sensor; a control unit; and a module case accommodating an inflator according to claim 24 and an air bag. 40. An inflator for inflating an air bag, comprising: a cylindrical housing defining therein a pressurized medium accommodating space for storing a pressurized medium, and also defining an opening at one end thereof; a closure member that covers the opening and defining a passage therein, the closure member being provided such that a one end surface of the closure member attaches the one end of the cylindrical housing; a rupturable disk isolating the pressurized medium accommodating space by sealing the passage; a cup member having a side wall that defines a port and an open end provided with a flange extending in an outward direction, the cup member being disposed inside the pressurized medium accommodating space such that the port directly opposes an inner surface of the cylindrical housing, and covering the passage and the rupturable disk; and a fixing member for fixing the cup member to the closure member by being bent over the flange, the closure member formed as one piece with the fixing member. 41. An inflator according to claim 40, wherein the pressurized medium comprises argon and helium. 42. The inflator according to claim 40, wherein the closure member defines an ignition device accommodation chamber for accommodating an ignition device therein. 43. The inflator according to claim 40, further comprising: a second closure member covering a second opening defined by the cylindrical housing, the second closure member defining a gas discharging hole for discharging the pressurized medium to the outside of the inflator. 44. The inflator according to claim 40, wherein the cylindrical housing is reduced in an outer diameter at both ends hereof. 45. The inflator according to claim 40, wherein the cup member includes a bottom surface formed at an opposite side of the open end thereof and the bottom surface is provided with a gas passing port. 46. The inflator according to claim 40, further comprising: an ignition device including an igniter and a gas generating agent that is isolated from the pressurized medium before activation of the inflator. 47. An inflator for inflating an air bag, comprising: a cylindrical housing defining therein a pressurized medium accommodating space storing a pressurized medium, and also defining an opening at one end thereof; a closure member that covers the opening and defining a passage therein, the closure member being provided such that a one end surface of the closure member attaches the one end of the cylindrical housing, the closure member having a protruding portion extending towards the pressurized medium accommodating space, the closure member formed as one piece with the protruding portion; a rupturable disk isolating the pressurized medium accommodating space by sealing the passage; and a cup member having a side wall that defines a port and an open end provided with a flange extending in an outward direction, the cup member being disposed inside the pressurized medium accommodating space such that the port directly opposes an inner surface of the cylindrical housing, and severing the rupturable disk and the passage, the cup member being attached to the closure member by bending the protruding portion over the flange. 48. The inflator according to claim 47, wherein the closure member defines an ignition device accommodation chamber for accommodating an ignition device therein. 49. The inflator according to claim 47, further comprising: a second closure member covering a second opening defined by the cylindrical housing, the second closure member defining a gas discharging hole for discharging the pressurized medium to the outside of the inflator. 50. An inflator according to claim 47, wherein the pressurized medium comprises argon and helium. 51. The inflator according to claim 47, wherein the cylindrical housing is reduced in an outer diameter at both ends thereof. 52. The inflator according to claim 47, wherein the cup member includes a bottom surface formed at an opposite side of the open end thereof and the bottom surface is provided with a gas passing port. 53. The inflator according to claim 47, further comprising: an ignition device including an igniter and a gas generating agent isolated from the pressurized medium prior to activation of the inflator.
