Land vehicles – Wheeled – Attachment
Reexamination Certificate
1998-01-30
2002-08-13
Johnson, Brian L. (Department: 3618)
Land vehicles
Wheeled
Attachment
C280S740000
Reexamination Certificate
active
06431581
ABSTRACT:
FIELD OF THE INVENTION
The present invention pertains to an inflatable air bag in a motor vehicle with fastening brackets made in one piece with the housing and having a diffusor with an inserted gas generator.
BACKGROUND OF THE INVENTION
Inflatable air bags have been increasingly used in the manufacture of modern automobiles. The air bag is accommodated together with an inflating means in a housing. The inflating means is also called a gas generator. The system is ignited via sensors. Many different variants of housings for inflatable air bags have been known. For example, DE 41 41 617 A1 discloses a vehicle air bag module in which a folded air bag and an inflating means are together accommodated in a housing and are inserted into the vehicle as a complete assembly unit. In the solution shown in that document, the housing has two compartments: a front compartment and a rear compartment. An inflating means is inserted into the rear compartment. This inflating means comprises a cylindrical outer housing, in which a plurality of nozzles are provided. The cylindrical outer housing is called the diffusor. The diffusor is used to accommodate the gas generator. The holes of the diffusor are arranged in the housing of the air bag unit such that a directed discharge of the gas into the air bag can take place. Without a diffusor, the gas would spread out in a nonuniform manner after the gas generator has been ignited. This would not be desirable, because the air bag must be inflated reliably, dependably and uniformly within a fraction of one second in order to function according to its intent.
The diffusor with the gas generator inserted into it is introduced into a mount in one side wall of the housing and is screwed to the opposite housing wall via a threaded shaft.
The entire housing construction is composed of a plurality of individual parts in the design shown in that document. The housing itself is manufactured as a sheet metal part.
Besides the manufacture, which is complicated for technological reasons, such a housing has the drawback of having a high intrinsic weight.
To compensate these drawbacks, it is proposed in DE 43 38 666 A1 that a housing for an air bag be made of plastic. Plastic offers a considerable reduction in weight compared with metallic materials. In addition, the brackets for fastening the housing in the motor vehicle are made in one piece with the plastic housing in the solution described in this document. However, to achieve an optimal discharge of the gas to inflate the air bag in this air bag housing as well, it is necessary to additionally use a diffusor. The diffusor comprises here a cylindrical aluminum molding, into which the gas generator is inserted. After the diffusor has been inserted into the space provided for it in the housing, the gas generator is mounted.
SUMMARY AND OBJECTS OF THE INVENTION
The present invention is primarily based on the technical object of developing a housing for the inflatable air bag in a motor vehicle that can be manufactured in a simpler manner and at a lower cost than prior-art designs.
This technical problem is solved by forming the housing in one-piece with two chambers, where one of which is a diffusor chamber with chamber walls having flow-optimized gas passage openings. The housing includes reinforcing ribs made in one piece with the diffusor chamber wall and extending across the first chamber to increase the strength of the housing. The first chamber is connected to the second chamber and are together formed in one piece with a plurality of fastening brackets. The gas passage openings are positioned between the plurality of reinforcing ribs. The first chamber is capable of receiving the air bag and the plurality of reinforcing ribs space the airbag from the gas passage openings.
A housing according to the present invention is made in one piece together with the brackets and with the diffusor accommodating the gas generator. It advantageously consists of plastic and is manufactured according to the injection molding process. Plastic as a material presents itself to be suitable because it is easy to process and makes it possible to greatly reduce the weight compared with designs made of metal. In addition, it is advantageous to make plug-type fasteners, cable clamps or other necessary components in one piece with the housing, so that the housing can be manufactured in one operation according to the injection molding process and additional components no longer need to be manufactured and mounted.
However, the housing may also consist according to the present invention of an aluminum housing manufactured according to the aluminum diecasting process.
The housing consisting of two chambers with a front chamber for accommodating the folded air bag or air bag module and a rear chamber for mounting the gas generator. The rear chamber is designed as a diffusor. Reinforcing ribs, with which the folded air bag is to come into contact, should be advantageously provided at the outer wall of this diffusor chamber. The reinforcing ribs stabilize the housing, on the one hand, and, on the other hand, they guarantee a distance between the air bag module and the rear chamber of the housing. The flow-optimized air passage openings, which are designed in terms of their cross section and their arrangement such that the air bag will be inflated uniformly, are provided between the reinforcing ribs.
The diffusor chamber is preferably closed on one side, except for a fastening opening. Another opening for introducing the gas generator is located on the opposite side. This opening is reinforced in its edge area, and it should also have a contact area that can be used as a seal. This could be designed as, e.g., a labyrinth. The gas generator introduced into this opening has a circular radial flange having a shape complementary to the contact area. This radial flange is surrounded by a seal, which is fitted into the contact area of the diffusor chamber wall during the mounting of the gas generator. The mounting of the gas generator is performed in a very simple manner, e.g., by means of a screw connection. It is, of course, also possible to lock the gas generator by means of a snap-on connection or in another way in the diffusor chamber.
In the case of a screw connection, a screw bolt, which is introduced into the fastening opening of the diffusor chamber and passes through same, is fastened on one side to the gas generator on the side opposite the radial flange. The gas generator is then screwed on with a nut from the free, outer side of the housing. To guarantee an optimal sealing function, a sealing element may additionally also be provided on the screw connection side of the gas generator. A sealing action can, of course, also be achieved even by the screw bolt arranged at the gas generator engaging in some areas a complementarily shaped mount in the fastening opening.
By tightening the screw connection, the seal between the gas generator cover and the contact area of the diffusor chamber wall also becomes effective. The gas generator is made smaller according to the present invention than the diffusor chamber accommodating it. An air gap is thus left around the gas generator after the installation of the gas generator in the diffusor chamber, and this air gap makes possible the flow-optimized and uniform distribution of the gas expanding after the ignition before it escapes through the gas passage openings into the air bag.
In addition, the air gap can also prevent the ignited gas generator from fusing with the housing, because experience has shown that, depending on the design of the gas generator, extremely high temperatures develop immediately after the ignition of the gas generator. The air gap thus prevents a fusion of the gas generator and the plastic housing, which would cause recycling to be almost impossible after the fusion of the gas generator with the housing.
To meet the high requirements imposed in terms of strength on a housing according to the present invention for accommodating an air bag in a motor vehicle, it is advan
Imken Hans-Jürgen
Klenk Jürgen
Rick Ulrich
Wagener Keit
Johnson Brian L.
Klebe Gerald
Lemförder Metallwaren AG
McGlew and Tuttle , P.C.
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