Land vehicles – Wheeled – Attachment
Reexamination Certificate
1999-03-01
2001-12-04
Mai, Lanna (Department: 3619)
Land vehicles
Wheeled
Attachment
C280S729000, C280S730100
Reexamination Certificate
active
06325409
ABSTRACT:
The invention relates to a connecting line for a gas bag-type occupant protection system.
BACKGROUND OF THE INVENTION
Connecting lines for gas bag systems are provided for inflating a gas bag with compressed gas and comprise a gas exit section extending into the gas bag, this gas exit section being provided with at least one gas exit port.
Gas bag-type occupant protection systems serve, for example, to protect the heads of vehicle occupants in case of a side impact collision. For this purpose a gas bag is deployed between the side windows and the head of the vehicle occupant in case of a collision. The gas bag is generally inflated by an inflator arranged on the C-pillar of the vehicle, this inflator being connected to the gas bag by a connecting line of the aforementioned kind. For the gas bag extending along the side windows of the vehicle to be able to be inflated uniformly the connecting line comprises a gas exit section extending by a considerable length into the gas bag. This gas exit section is also termed a gas lance and is provided with a plurality of gas exit ports. Due to this arrangement gas emerges over a considerable length of the gas bag which, depending on the type of vehicle involved, may amount to, for example, approximately 1.2 m, and the gas bag is uniformly inflated. The gas exit ports are usually formed by milled slots, roughly two to four such slots being provided within the gas bag. Since the gas on deployment of the gas bag flows within the gas lance at a very high velocity extending into the supersonic range, the slots must be of considerable length so that a sufficient amount of gas is able to exit laterally from the gas lance. Accordingly, milling these slots is time-consuming and expensive. In addition to this the milled gas exit ports weaken the structure of the gas lance and are difficult to deburr.
It is the object of the invention to simplify the manufacturing of the connecting line for a gas bag-type occupant protection system.
BRIEF DESCRIPTION OF THE INVENTION
To this end, the invention provides a connecting line intended to connect a gas bag for a gas bag-type occupant protection system with a gas generator. The connecting line comprises a gas exit section intended to be arranged within a gas bag and having outer surface area. The gas exit section is provided with at least one gas exit port. The gas exit port has at least one gas guidance surface area which extends from the outer surface area of the gas exit section into the interior of the gas exit section of the said connecting line with a predetermined depth. Due to such a geometry each gas exit port features a gas guidance surface area by which the gas flowing in the gas exit section of the connecting line is forced to exit laterally. In this arrangement, the branching gas flow can be influenced in regard to its direction and extent by changing the geometry of the gas exit port. The gas exit port may be fabricated by indentation or embossing. The gas exit port may be fabricated in a single operation for example by means of a combined embossing/cutting punch. Small tolerances are achieved in production when a cutting die is drawn along in the interior of the connecting line in the manufacturing process.
In one aspect of the invention the gas guidance surface area comprises in the predetermined depth at least one end face oriented towards a main flow direction of the gases in the connecting line. Configuring the gas guidance surface area in this way causes an outflow of the gases substantially in a plane parallel to the cross-section of the connecting line.
In another aspect it is proposed that the gas exit port comprises at least one boundary located in the outer surface area of the gas exit section and oriented parallel to the main flow direction and that the gas guidance surface area is formed by an indented portion of the wall of the gas exit section of the connecting line, this indention being located on the side of the boundary relative to the main flow direction. In this way a flow-favoring geometry can be created by simple means of fabrication without the need of fitting additional parts to the connecting line. The dimensions of the indented portion influence the direction and quantity of the outflowing gas.
In yet a further aspect of the invention it is also proposed that the gas guidance surface area is formed by a portion of the wall of the gas exit section of the connecting line, that is indented between two boundaries located parallel to the main flow direction. As a result of this, the open cross-section of the gas exit port available for outflow of the gas can be enlarged without changing the depth of the gas exit port.
It is likewise of advantage that the gas guidance surface area extends opposite a main direction of gas flow in the connecting line toward the gas bag obliquely down from the outer surface area of the gas exit section of the connecting line to a predetermined depth into the interior of the connecting line. Due to such a gilled geometry the gas flowing in the connecting line is deflected directly from its main flow direction, and the gas flowing in the gas exit section of the connecting line is forced to exit laterally. In this arrangement, the branching gas flow can be influenced as regards its direction and extent by changing the geometry of the gas exit port.
The gas guidance surface area may be configured so that it comprises in the predetermined depth an end face facing the main flow direction and that the width of the gas guidance surface area reduces from the end face toward the outer surface area of the gas exit section of the connecting line. The gas guidance surface area is preferably curved convex. For example, flow-favoring geometries of the gas exit port may be produced by varying the penetration depth of a circular cone-shaped punch, the gas guidance surface area as viewed from above then having essentially a triangular or hyperbola-like curved rim.
In still another aspect of the invention the gas exit section of the connecting line extending into the gas bag comprises a plurality of gas exit ports arranged in series in the main flow direction, the cross-section of the gas exit ports perpendicular to the main flow direction for the gas exit ports located further downstream in the main flow direction being larger than that of the gas exit ports located further upstream. In this way the drop in pressure of the gas along the connecting line can be compensated so that the outflow of gas at all gas exit ports is the same in quantity.
It is also proposed that the predetermined depth of the gas exit ports located further downstream in the main flow direction is larger than that of the gas exit ports located further upstream, this enabling the cross-section available for the gas passage to be increased by simple means.
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Mai Lanna
Phan Hau
Tarolli, Sundheim, Covell Tummino & Szabo L.L.P.
TRW Occupant Restraint Systems GmbH & Co. KG
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