DE102011103764A1 - Hybrid gas generator i.e. pyrotechnic gas generator, for generating e.g. argon in air bag module mounted into interior region of motor car steering wheel, has free-holding devices arranged in chamber to prevent covering of passage apertures - Google Patents

Abstract

The generator (100) has a diffuser chamber (130) that is in fluid connection to a combustion chamber (110) for retaining burnable fuel bodies i.e. compressed fuel tablets. A partition wall (200) is arranged between the combustion and diffuser chambers. The wall comprises free-holding devices (250, 350) that are arranged in the combustion chamber to prevent complete covering of passage apertures (302-310) by the individual fuel bodies during operation of the generator. A membrane is provided at a radial opening (131) for closing the diffuser chamber in a region of a diffuser (132). An independent claim is also included for an air bag module comprising a fastening device.

Description

The present invention relates to a gas generator, in particular for an airbag module, having a diffuser chamber and at least one combustion chamber which can be brought into contact therewith for accommodating combustible fuel bodies, a partition wall having a number of passage openings being arranged between the combustion chamber and the diffuser chamber.

Furthermore, the present invention relates to an airbag module with such a gas generator.

Currently, such a gas generator for an airbag module is known in the burnable fuel body, z. B. pressed fuel pellets or fuel pellets form a so-called fuel bed, which is arranged in a combustion chamber, which is connected via a provided with a number of passage openings dividing wall with an associated diffuser space. When this fuel bed is burned off in the combustion chamber, the fuel pellets burn in the direction of the dividing wall, producing a hot gas, which flows through the passage openings into the diffuser chamber, under strong pressure development, in order to pass through it. B. to be initiated in an associated airbag.

In conventional partitions, which are designed as flat discs with a continuous uniform thickness and substantially cylindrical through holes with constant diameter to form the passage openings, individual fuel tablets can cover or block several or all of these through holes when burning the fuel bed. As a result, an undesirably high pressure can arise in the combustion chamber, since the resulting hot gas can not escape from the combustion chamber or can flow into the diffuser space. To prevent this, an additional flow-permeable component is arranged between such a partition wall and an associated fuel bed, for. A mesh knit or retaining screen to prevent covering of the through-holes of the bulkhead when the fuel bed is burned by individual fuel pellets and to permit backflow of the fuel pellets by spacing the fuel bed from the bulkhead. The disadvantage here is that such an additional component requires additional space in the gas generator and requires additional costs in the production and assembly.

The object of the invention is therefore to improve a gas generator for an airbag module in terms of its structure and installation.

It is another object of the invention to provide an airbag module with such a gas generator.

For a gas generator of the type mentioned, this object is achieved in that the partition has a arranged in the combustion chamber free-holding device, which is designed to prevent a substantially complete covering of the passage openings by individual fuel body during operation of the gas generator.

By providing the partition with the free-wall device, the construction of the gas generator can be simplified, with a large-scale, so substantially complete covering the passage openings of the partition when burning the fuel body in the combustion chamber can be safely and reliably prevented.

According to one embodiment, the free-hold device has at least one groove-like recess formed on the dividing wall.

Such a groove-like recess can be inexpensively formed on the partition wall and allows in a simple manner a flow behind the voltage applied to the partition fuel body.

The at least one groove-like recess formed on the dividing wall preferably connects at least two passage openings to one another at an end face of the dividing wall facing the combustion chamber.

Thus, when the fuel bodies are burned off in the combustion chamber, the gas can also pass through the groove-like recess to the passage openings when the two passage openings are covered by corresponding fuel bodies and thus flow out of the combustion chamber through a rear flow of these fuel bodies, so that an impermissibly high pressure rise in the combustion chamber can be effectively avoided.

Preferably, the at least one formed on the partition, groove-like recess is provided annularly on one of the combustion chamber facing end side of the partition and connects a plurality of passage openings with each other. Further preferably, the at least one formed on the partition wall, groove-like recess in the radial direction of the partition wall is provided on one of the combustion chamber facing end side of the partition wall. At least two, groove-like recesses formed on the dividing wall are particularly preferably provided on an end face of the dividing wall facing the combustion chamber, wherein there are at least two mutually parallel or intersecting recesses.

Thus, a back flow of these fuel bodies can be made safe and reliable in a simple manner even when covering a plurality of passage openings by appropriate fuel body.

According to one embodiment, the free-hold device has at least one protrusion formed on the partition wall, which is formed between at least two passage openings.

Such a bulge can be inexpensively formed on the partition and allows in a simple manner a flow behind the voltage applied to the partition in the region of the bulge fuel body.

The at least one bulge formed on the dividing wall preferably forms a web-like elevation.

Thus, an uncomplicated and stable bulge can be formed on the partition wall.

Preferably, the web-like elevation is annularly provided on one of the combustion chamber facing end side of the partition wall.

Further preferably, the web-like elevation is provided in the radial direction of the partition wall on one of the combustion chamber facing end side of the partition wall. Particularly preferably, at least two web-like elevation are provided on one of the combustion chamber facing end side of the partition, wherein at least two mutually parallel or intersecting web-like elevation are present.

Thus, a sturdy partition wall can be provided whose rigidity is improved by the annular land in a simple manner, with complete covering of the web adjacent through openings by corresponding fuel body during burning of the fuel body is reliably and reliably prevented.

According to one embodiment, the passage openings are arranged on concentric circular paths and / or radially in a star shape or on mutually parallel or intersecting lines.

Thus, a secure and robust partition can be provided whose stability is not significantly affected by the passage openings.

According to one embodiment, at least one of the passage openings is closed with a damming, preferably on the end face of the partition wall, which faces the diffuser space.

Thus, the pressure in the combustion chamber, which is formed by the combustion of the fuel body, can be influenced.

According to one embodiment, the fuel bodies have pressed fuel tablets.

Thus, simple and inexpensive fuel body can find application.

In the case of a burning off of the fuel bodies during operation of the gas generator, the free-hold device is preferably designed to enable a backflow of fuel bodies arranged in the region of the passage openings.

Thus, a back flow of these fuel bodies can be made safe and reliable in a simple manner even when covering a plurality of passage openings by appropriate fuel body.

The object of the invention with respect to the airbag module is achieved by an airbag module according to the invention, with a gas generator, a gas bag inflatable by the gas generator and a fastening device for attachment of the airbag module, in particular in the interior of a vehicle, wherein the gas generator according to at least one of claims 1 to 9 is.

Further details and advantageous developments of the invention will become apparent from the embodiments described below and illustrated in the figures, in no way as a limitation of the invention. Show it:

1 2 is a schematic, partial perspective view of an airbag module with a gas generator according to one embodiment,

2 a perspective view of a partition wall of the gas generator of 1 .

3 a sectional view of the gas generator of 1 with provided therein fuel bodies, and

4 a perspective view of a with the gas generator of 1 usable partition according to an alternative embodiment.

In the following description, the terms left, right, front, back, top and bottom to the respective drawing figure and can vary from one drawing figure to the next, depending on the orientation you choose (portrait or landscape). Identical or equivalent parts are shown in the different figures with the same or corresponding (eg. 107 . 207 . 307 etc.) reference numerals and usually described only once.

1 shows an exemplary gas generator 100 according to an embodiment, illustratively an airbag module 150 is assigned for a motor vehicle steering wheel. It should be noted, however, that the airbag module 150 for the sake of simplicity and clarity of the drawing is shown only schematically, while the gas generator 100 is shown in perspective.

The gas generator 100 illustratively has a cylindrical housing 105 with an interior designed by this 107 on. At the front sides of the housing 105 are exemplary two closures 160 . 170 arranged, the z. B. provided with associated electrical igniters Ignition units ( 165 in 3 ) respectively. 175 exhibit. Such Ignition units are well known to those skilled in the art. Therefore, for the sake of brevity of the description, a detailed description of suitable ignition units is omitted here.

Between the closures 160 . 170 are in the interior 107 of the housing 105 Illustratively, first and second flow-permeable dividing walls 200 . 300 arranged. Between the partitions 200 . 300 is in the case 105 an example of a diffuser room 130 formed, which may optionally have a filter, not shown. In the area of this diffuser room 130 is on the case 105 a radial opening 131 trained, in a z. B. via a membrane ( 138 in 3 ) closed diffuser 132 with a large number of outlet openings 135 is attached. The diffuser 132 is z. B. within a the airbag module 150 associated gas bag arranged.

In addition, the first partition wall serves 200 to limit one between the closure 160 and the first partition 200 in the case 105 trained, first combustion chamber 110 , The second partition 300 serves to limit one between the shutter 170 and the second partition 300 in the case 105 trained, second combustion chamber 120th The first combustion chamber 110 is z. B. for receiving a first fuel bed ( 112 in 3 ) and the second combustion chamber 120 for receiving a second fuel bed ( 122 in 3 ) educated. It should be understood, however, that the description of two combustors is merely exemplary in nature and should not be considered as limiting the invention. Instead, it can also be used when using a single or even three or more combustion chambers.

According to the embodiment in FIG 1 is at the first partition 200 a variety of passage openings 202 . 204 . 206 . 208 . 210 (such as 201 . 203 . 205 in 3 ) educated. In addition, the first partition wall points 200 illustratively one in the combustion chamber 110 arranged free-standing device 250 on, which is adapted to the operation of the gas generator 100 a covering of passage openings 202 . 204 . 206 . 208 . 210 (such as 201 . 203 . 205 in 3 ) as in 3 described to prevent. The free-standing device 250 is an example of one of the combustion chamber 110 facing end face 299 the partition 200 trained and will be down at 2 described in detail.

At the second partition 300 is illustratively a plurality of passage openings 302 . 304 . 306 . 308 . 310 educated. In addition, the second partition wall points 300 at one of the combustion chamber 120 facing end face 399 also a free-hold on, with 350 is characterized and their configuration of the embodiment of the free-holding device 250 structurally corresponds, so here for the purpose of scarcity of description on a detailed description of this free-holding device 350 can be waived. In general, the following is a further description of the partition 300 omitted, since this preferably has a similar structure as the partition described in detail below 200 ,

Optionally, at least one of the passage openings 201 . 203 . 205 . 301 . 303 . 305 with a damming 500 to be introverted.

1 shows such a damming 500 at the front of the partition 200 . 300 which the diffuser room 130 facing, where all the passage openings 301 . 303 . 305 are closed. Such a damming 500 For example, it can be designed as a foil or plate made of metal (for example made of steel, aluminum or copper), with a one-sided coating with an adhesive. Such a damming 500 can on the essentially plane, that of the free-standing device 250 . 350 having opposite end face of the partition 200 . 300 be applied (glued).

In particular, such a damming 500 in so-called "pyrotechnic gas generators" use, which before activation of the gas generator 100 no under higher pressure (eg 200-500 bar) standing chamber, such. B. combustion chamber 110 . 120 or diffuser room 130 , exhibit. Such a damming 500 is opened only at a predetermined bursting pressure. That means that damming 500 Breaks when a certain pressure is reached by burning the fuel body 122 . 123 arises, and thus can to control the pressure forming in the combustion chamber 110 . 120 contribute.

2 shows the exemplary disk-shaped partition 200 from 1 with the at the front side 299 provided free-hold device 250 and a plurality of passage openings, of which for simplicity of the drawing, only the openings 201 . 202 . 203 . 204 . 205 . 206 . 208 . 210 Marked are. The passage openings 201 . 202 . 203 . 204 . 205 . 206 . 208 . 210 are z. B. cylindrical through holes with at least substantially coincident and constant diameters on concentric circular paths 282 . 284 . 286 are arranged. Illustrative are the passage openings 201 . 202 . 205 . 208 on an outer concentric circular path 282 , the passage openings 203 . 206 . 210 on an inner concentric circular path 286 and the passage opening 204 on a central concentric circular path 284 arranged.

According to the embodiment in FIG 2 has the free-standing device 250 at least one and illustratively three on the partition 200 trained, groove-like recesses 252 . 254 . 256 on. These groove-like recesses 252 . 254 . 256 are illustratively annular at the front 299 along the associated concentric circular paths 282 . 284 respectively. 286 trained, but may also be oriented differently, for. B. in the radial direction of the partition 200 ,

At least one of the groove-like recesses 252 . 254 . 256 connects at the front 299 the partition 200 by way of example at least two of the passage openings 201 . 202 . 203 . 204 . 205 . 206 . 208 . 210 together. Illustratively connect the groove-like recesses 252 . 254 . 256 annular in each case a plurality of passage openings with each other, for. B. connects the annular groove 252 the passage openings 201 . 202 . 205 . 208 and the annular groove 256 the passage openings 203 . 206 . 210 together.

3 shows the gas generator 100 from 1 to illustrate the flow-permeable connection of the diffuser space 130 with the first combustion chamber 110 over in the first partition 200 provided passage openings 201 . 203 . 205 and the flow-permeable connection of the diffuser space 130 with the second combustion chamber 120 over in the second partition 300 provided passage openings 301 . 303 . 305 , In addition illustrated 3 an example of the closure of the diffuser space 130 in the region of the simplified illustrated diffuser 132 at the opening 131 provided membrane 138 ,

It should be noted that the membrane 138 only required if the diffuser space 130 and the combustion chambers 110 . 120 with one until activation of the gas generator 100 inert compressed gas, z. As argon, helium or a mixture thereof, are filled with a filling pressure of about 250 to 500 bar and the gas generator 100 thus formed as a so-called "hybrid gas generator", so that through the membrane 138 an escape of the inert compressed gas can be prevented. In an embodiment of the gas generator 100 as a so-called "Pyrotechnikgasgenerator" can optionally on a use of the membrane 138 be waived.

According to one embodiment, as z. B. based on 3 is explained in the first combustion chamber 110 a first fuel bed 112 and in the second combustion chamber 120 a second fuel bed 122 arranged. The first fuel bed 112 Illustratively has a plurality of pressed, combustible fuel pellets or pellets, of which, for the sake of clarity of the drawing, only the fuel pellets 113 . 115 . 117 Marked are. The second fuel bed 122 also illustratively comprises a plurality of compressed, combustible fuel pellets, of which only the fuel pellets are used for clarity of the drawing 123 . 125 . 127 Marked are.

During operation or when activating the gas generator 100 becomes the fuel bed 112 from one at the clasp 160 arranged, electric lighters 165 and the fuel bed 122 from the at the clasp 170 arranged, electric lighters 175 set on fire. Then the fuel tablets burn 113 . 115 . 117 starting from the electric lighter 165 in the direction of the partition 200 down and produce under strong pressure, a hot gas, the z. B. through the passage openings 201 . 203 . 205 in the diffuser room 130 flows. The fuel tablets 123 . 125 . 127 burn starting from the electric lighter 175 in the direction of the partition 300 down and also produce under strong pressure, a hot gas, the z. B. through the passage openings 301 . 303 . 305 in the diffuser room 130 flows. This is by the free-hold devices 250 . 350 or their groove-like recesses ( 252 . 254 . 256 from 2 ) completely covering the passage openings 201 . 203 . 205 respectively. 301 . 303 . 305 prevented by individual fuel pellets and a back flow of in the area of the passage openings 201 . 203 . 205 respectively. 301 . 303 . 305 arranged fuel bodies allows, so that in the combustion chambers 110 . 120 resulting hot gas almost unhindered in the diffuser space 130 can flow in.

4 shows a partition 400 according to an alternative embodiment, for the realization of the partitions 200 . 300 from 1 and 3 Application can be found. The partition 400 has illustratively a plurality of passage openings, of which for simplicity of the drawing, only the openings 401 . 402 . 403 . 404 . 405 . 406 . 408 Marked are. The passage openings 401 . 402 . 403 . 404 . 405 . 406 . 408 are z. B. cylindrical through holes with at least substantially coincident and constant diameters, the example of concentric circular paths 482 . 484 . 486 are arranged. Illustrative are the passage openings 401 . 403 on an outer concentric circular path 482 , the passage openings 405 . 408 on an inner concentric circular path 486 and the passage openings 402 . 404 . 406 on a central concentric circular path 484 arranged.

According to one embodiment, as z. B. based on 4 is explained, the partition wall 400 a free-standing device 450 on, the at least one on one end face 499 the partition 400 having trained bulge, which is provided between at least two passage openings and preferably forms a web-like elevation. Illustrative is a bulge 440 between the passage openings 405 . 408 educated.

According to a further embodiment is on the front side 499 at least one annular web-like elevation formed, the free-holding device 450 assigned. Illustrative are on the front page 499 three ring bridges 452 . 454 . 456 formed, wherein the ring land 456 between the concentric circular paths 486 and 484 is arranged, the ring land 454 between the concentric circular paths 484 and 482 is arranged and the ring land 452 by way of example outside the concentric circular path 482 runs. The ring bridges 452 . 454 . 456 and the bulge 440 fulfill the same function as the ring grooves 252 . 254 . 256 from 2 So here for the sake of scarcity of description on a detailed description of the functionality of the free-hold device 450 can be waived.

Naturally, many modifications and modifications are possible within the scope of the present invention. For example, the in 2 and 4 described embodiments of the partitions 200 and 400 can be combined with each other, so that a corresponding partition wall can have both annular grooves and ring lands. Such modifications and modifications are to be considered as disclosed by the present specification. In particular, embodiments are also conceivable which combine individual features of the previously described embodiments.

Claims (10)

Gas generator ( 100 ) in particular for an airbag module ( 150 ), with a diffuser space ( 130 ) and at least one combustible chamber (FIG. 110 ) for receiving combustible fuel bodies ( 113 . 115 . 117 ), wherein between the combustion chamber ( 110 ) and the diffuser space ( 130 ) a partition wall ( 200 ) is arranged, which has a number of passage openings ( 201 . 203 . 205 ), characterized in that the partition wall ( 200 ) one in the combustion chamber ( 110 ) Free-standing device ( 250 . 350 . 450 ), which is adapted to, during operation of the gas generator ( 100 ) a substantially complete covering of the passage openings ( 201 . 203 . 205 ) by individual fuel bodies ( 113 . 115 . 117 ) to prevent. Gas generator according to claim 1, characterized in that the free-hold device ( 250 ) at least one on the partition ( 200 ) formed, groove-like recess ( 252 . 254 . 256 ), wherein preferably the groove-like recess ( 252 ) at one of the combustion chamber ( 110 ) facing end face ( 299 ) of the partition ( 200 ) is formed, and / or preferably wherein the groove-like recess ( 252 ) at least two passage openings ( 201 . 205 ) connects to each other. Gas generator according to at least one of the preceding claims 1 or 2, characterized in that the at least one on the partition ( 200 ) formed, groove-like recess ( 252 ) annularly at one of the combustion chamber ( 110 ) facing end face ( 299 ) of the partition ( 200 ) is provided and a plurality of passage openings ( 201 . 202 . 205 . 208 ), and / or characterized in that the at least one on the partition ( 200 ) formed, groove-like recess ( 252 ) in the radial direction of the partition wall ( 200 ) at one of the combustion chamber ( 110 ) facing end face ( 299 ) of the partition ( 200 ), and / or characterized in that at least two on the partition wall ( 200 ) formed, groove-like recesses ( 252 ) at one of the combustion chamber ( 110 ) facing end face ( 299 ) of the partition ( 200 ) are provided, wherein at least two mutually parallel or intersecting recesses ( 252 ) are present. Gas generator according to at least one of the preceding claims 1 to 3, characterized in that the free-hold device ( 450 ) at least one on the partition ( 400 ) formed bulge ( 440 ), which between at least two passage openings ( 405 . 408 ), wherein preferably the at least one on the partition ( 400 ) formed bulge ( 452 . 454 . 456 ) forms a web-like elevation. Gas generator according to at least one of the preceding claims 1 to 4, characterized in that the web-like elevation ( 452 . 454 . 456 ) annularly at one of the combustion chamber ( 110 ) facing end face ( 499 ) of the partition ( 400 ), and / or characterized in that the web-like survey ( 452 . 454 . 456 ) in the radial direction of the partition wall ( 200 ) at one of the combustion chamber ( 110 ) facing end face ( 499 ) of the partition ( 400 ) is provided, and / or characterized in that at least two web-like survey ( 452 . 454 . 456 ) at one of the combustion chamber ( 110 ) facing end face ( 499 ) of the partition ( 400 ) are provided, wherein at least two mutually parallel or intersecting web-like survey ( 452 . 454 . 456 ) are present. Gas generator according to at least one of the preceding claims 1 to 5, characterized in that the passage openings ( 201 . 202 . 203 . 204 . 205 . 206 . 208 ) on concentric circular paths ( 282 . 284 . 286 ) and / or radially arranged in a star shape or on mutually parallel or intersecting lines. Gas generator according to at least one of the preceding claims 1 to 6, characterized in that at least one of the passage openings ( 201 . 202 . 203 . 204 . 205 . 206 . 208 ) with a damming ( 500 ), preferably at the front side of the partition ( 200 . 400 ), which the diffuser space ( 130 ) is closed, is closed. Gas generator according to at least one of the preceding claims 1 to 7, characterized in that the fuel bodies ( 113 . 115 . 117 ) have pressed fuel tablets. Gas generator according to at least one of the preceding claims 1 to 8, characterized in that the free-hold device ( 250 ) is adapted to burn when the fuel body ( 113 . 115 . 117 ) during operation of the gas generator ( 100 ) a back flow of in the region of the passage openings ( 201 . 203 . 205 ) arranged fuel bodies ( 113 . 115 . 117 ). Airbag module with a gas generator ( 100 ), one of the gas generator ( 100 ) inflatable gas bag and a fastening device for mounting the module, in particular in the interior of a vehicle, characterized in that the gas generator ( 100 ) is formed according to at least one of claims 1 to 9.

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