초록 ▼

A disc inflator having gas cooling and mist removal functions, and reduced in weight and in size in a radial direction. An inflator case (40) has an upper case (36) at an occupant side and a lower case (38) at a side opposite an occupant. A tubular holding member (60) having a separation wall (64) a

A disc inflator having gas cooling and mist removal functions, and reduced in weight and in size in a radial direction. An inflator case (40) has an upper case (36) at an occupant side and a lower case (38) at a side opposite an occupant. A tubular holding member (60) having a separation wall (64) at a base portion thereof is provided in the inflator case. A gas flow path (74) is formed at a periphery of the holding member (60), and communication holes (80) communicating with the gas flow path (74) are formed in the separation wall (64). At a peripheral wall portion (36B) of the upper case (36) is formed a gas ejection hole (76) at a position offset towards an occupant side only by a distance δ from a central position P of a combustion chamber (68). Accordingly, a length (L1) of a flow path from the starting end of the flow path to the gas ejection hole (76) increases, enabling effective heat exchange of a high temperature gas and removal of mist (82). Thereby, a conventionally used filter may be disposed of.

대표청구항 ▼

1. An inflator comprising: an inflator case including a pair of base wall portions that close end portions in an axial direction of a peripheral wall portion in which a gas ejection hole is formed;an ignition device disposed at an inner portion of the inflator case;a holding member disposed at the i

1. An inflator comprising: an inflator case including a pair of base wall portions that close end portions in an axial direction of a peripheral wall portion in which a gas ejection hole is formed;an ignition device disposed at an inner portion of the inflator case;a holding member disposed at the inner portion of the inflator case, that accommodates and holds a gas generating agent that generates gas as a result of being ignited by the ignition device and combusting; anda gas flow path, that promotes heat exchange between high temperature gas generated at a combustion chamber and the inflator case, formed at an inner side of the inflator case and at a periphery of the holding member, such that the combustion chamber defined by at least the holding member is communicated with the gas ejection hole, whereinthe gas ejection hole is offset in an axial direction of the inflator case, with respect to a central position of the combustion chamber in the axial direction of the inflator case,a separation wall that forms a part of the holding member and that is provided with a communication hole that communicates the combustion chamber with the gas flow path, is disposed at least at a side opposite a side of the holding member in an inflator case axial direction at which the gas ejection hole is disposed, such that the inflator does not use a filter, andthe communication hole is formed inclined away from the gas ejection hole with respect to a plate thickness direction that passes through the communication hole. 2. The inflator of claim 1, wherein: the separation wall is disposed at a side of the holding member opposite a side in the inflator case axial direction at which the gas ejection hole is formed, andthe separation wall is not disposed at a side of the holding member in the axial direction of the inflator case at which the gas ejection hole is formed, said side being in an open state, and being closed by a base wall portion of the inflator case. 3. The inflator of claim 1, wherein the communication hole is formed by punching out the separation wall in a substantially triangular pyramid shape or a substantially conical shape such that an ejection opening of the communication hole is a substantially triangular shape or a substantially semicircular shape. 4. The inflator of claim 1, wherein at an inner side surface of a base wall portion that opposes the separation wall of the inflator case, plural projections, or plural recessions, or both plural recessions and plural projections, are formed, in order to generate turbulence in a gas flow. 5. A vehicle airbag device comprising: the inflator of claim 1;a base member that is attached to and supports the inflator;an airbag fixed to the base member in a folded state, and that expands upon being supplied with gas from the inflator; andan airbag cover that stores the airbag in a folded state between the airbag cover and the base member, and that opens an airbag door and expands the airbag when a bag expansion pressure reaches a predetermined value. 6. The vehicle airbag device of claim 5, wherein the airbag device is for a driver's seat. 7. An inflator comprising: an inflator case including a pair of base wall portions that close end portions in an axial direction of a peripheral wall portion in which a gas ejection hole is formed;an ignition device disposed at an inner portion of the inflator case;a holding member disposed at the inner portion of the inflator case, that accommodates and holds a gas generating agent that generates gas as a result of being ignited by the ignition device and combusting; anda gas flow path, that promotes heat exchange between high temperature gas generated at a combustion chamber and the inflator case, formed at an inner side of the inflator case and at a periphery of the holding member, such that the combustion chamber defined by at least the holding member is communicated with the gas ejection hole, whereinthe gas ejection hole is disposed in the combustion chamber at a central position in an axial direction of the inflator case; andat both end portions of the holding member in the axial direction of the inflator case, respective separation walls that form part of the holding member are formed each provided with a communication hole that communicates the combustion chamber with the gas flow path, such that the inflator does not use a filter. 8. The inflator of claim 7, wherein each communication holes is formed inclined away from the gas ejection hole with respect to a plate thickness direction that passes through the communication hole. 9. The inflator of claim 7, wherein each communication hole is formed by punching out the separation wall in a substantially triangular pyramid shape or a substantially conical shape such that an ejection opening of the communication hole is a substantially triangular shape or a substantially semicircular shape. 10. The inflator of claim 7, wherein at an inner side surface of a base wall portion that opposes the separation wall of the inflator case, plural projections, or plural recessions, or both plural recessions and plural projections, are formed, in order to generate turbulence in a gas flow. 11. A vehicle airbag device comprising: the inflator of claim 7;a base member that is attached to and supports the inflator;an airbag fixed to the base member in a folded state, and that expands upon being supplied with gas from the inflator; andan airbag cover that stores the airbag in a folded state between the airbag cover and the base member, and that opens an airbag door and expands the airbag when a bag expansion pressure reaches a predetermined value. 12. The vehicle airbag device of claim 11, wherein the airbag device is for a driver's seat.