The air bag gas generator comprises a housing having a gas discharge port, an ignition unit chamber in which ignition units are accommodated, and a combustion chamber in which a gas generating agent is accommodated, a cylindrical coolant/filter disposed between the combustion chamber and the gas dis
The air bag gas generator comprises a housing having a gas discharge port, an ignition unit chamber in which ignition units are accommodated, and a combustion chamber in which a gas generating agent is accommodated, a cylindrical coolant/filter disposed between the combustion chamber and the gas discharge port, so that combustion gas passes through the coolant/filter prior to discharge through the gas discharge port, and the air bag gas generator meeting the following requirements (a), (b), and (c): (a) that the gas generating agent has an amount of heat generation of 10 to 30 kcal/mol; (b) that the mass (g) of the coolant/filter in relation to 1 mol of gas generated during combustion of the gas generating agent be 20 to 65 g/mol; and (c) that the coolant/filter has a thickness of not less than 4.0 mm.
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The invention claimed is: 1. A gas generator for an air bag, comprising: a housing having a gas discharge port; an inner cylinder provided inside the housing and defining therein an ignition means chamber, in which ignition means are accommodated, and a combustion chamber, in which a gas generating
The invention claimed is: 1. A gas generator for an air bag, comprising: a housing having a gas discharge port; an inner cylinder provided inside the housing and defining therein an ignition means chamber, in which ignition means are accommodated, and a combustion chamber, in which a gas generating agent is accommodated, and separated from the ignition means chamber, the inner cylinder being provided with a first through hole that allows only the ignition means chamber to communicate with a chamber outside the inner cylinder, and a second through hole that allows only the combustion chamber to communicate with the chamber outside the inner cylinder; a cylindrical coolant/filter disposed within the chamber outside the inner cylinder, and between the combustion chamber and the gas discharge port so that combustion gas passes through the coolant/filter prior to discharge through the gas discharge port, a retainer including a lower peripheral wall, an upper peripheral wall, and an annular plane connecting the lower peripheral wall and the upper peripheral wall, the retainer being provided such that, the lower peripheral wall opposes the first through hole and makes a direct contact with an inner circumferential wall extending between a ceiling surface and a base surface of the housing, the annular plane supporting a lower end surface of the cylindrical coolant/filter, and the upper peripheral wall opposes the second through hole and the gas discharge port, wherein a first gap is defined between the cylindrical coolant/filter and the upper peripheral wall, and a second gap is defined between the cylindrical coolant/filter and the inner circumferential wall of the housing, the first gap and the second gap are provided between the upper peripheral wall and the gas discharge port. 2. The gas generator for an air bag according to claim 1, wherein a ratio between H1 and H2 (H2/H1), where H1 is a height from a ceiling surface to a base surface of the housing and H2 is a height of the cylindrical coolant/filter, is within a range of 0.45 to 0.80. 3. The gas generator for an air bag according to claim 1, wherein a ratio between H1 and H2 (H2/H1), where H1 is a height from a ceiling surface to a base surface of the housing and H2 is a height of the cylindrical coolant/filter, is within a range of 0.45 to 0.80. 4. The gas generator for an air bag according to claim 1, wherein the ignition means includes an electric igniter activated by an ignition current, and a transfer charge ignited upon activation of the electric igniter, wherein the transfer charge is a gas generating material having a combustion temperature of 1700 to 3000° C., and the gas generating agent has a combustion temperature of 1000 to 1700° C. 5. The gas generator for an air bag according to claim 4, wherein the gas generating agent is provided within the combustion chamber. 6. The gas generator for an air bag according to claim 1, wherein the retainer is provided within the combustion chamber such that a lower portion of the upper peripheral wall contacts an inner peripheral surface of the cylindrical coolant/filter and the first gap is provided between an upper portion of the upper peripheral wall and the inner peripheral surface of the cylindrical coolant/filter. 7. The gas generator for an air bag according to claim 1, wherein an upper end of the upper peripheral wall is bent in a direction of the inner cylinder. 8. The gas generator for and air bag according to claim 1, wherein the gas discharge port and the second through hole are provided mutually opposing height position in a radial direction, and the retainer is provided within the chamber outside the inner cylinder such that the upper peripheral wall extends between the gas discharge port and the second through hole. 9. The gas generator for an air bag according to claim 1, wherein the chamber outside the inner cylinder is provided with a gas generating agent and the gas generator meets the following requirements (a) and (b): (a) the gas generating agent has an amount of heat generation of 10 to 30 kcal/mol; and (b) the mass (g) of the coolant/filter in relation to 1 mol of gas generated during combustion of the gas generating agent be 20 to 65 g/mol. 10. The gas generator for an air bag according to claim 1, wherein the retainer includes, in the lower peripheral wall, an inward flange bent in a direction of the inner cylinder and such that the lower peripheral wall and the inward flange are in direct contact with the circumferential wall surface and the base surface of the housing, respectively. 11. The gas generator for an air bag according to claim 1, wherein a diameter of the upper peripheral wall is smaller than a diameter of the lower peripheral wall. 12. The gas generator for an air bag according to claim 1, wherein the cylindrical coolant/filter is provided, such that an upper end surface of the cylindrical filter/coolant is in contact with a ceiling surface of the housing and the lower end surface of the cylindrical filter/coolant is supported by the annular plane of the retainer. 13. The gas generator for an air bag according to claim 1, wherein the cylindrical coolant/filter has a thickness of not less than 4.0 mm.
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