EP1492687A1 - Airbag unit comprising a retaining element and supporting element for fixing the airbag - Google Patents

Abstract

The invention relates to an airbag unit comprising an airbag (3) and a flat supporting element (2), whereby the air bag (3) is situated in front of a surface (21) of the supporting element (2), and the supporting element has an opening (20) for fixing the airbag (3) thereto. The airbag unit also comprises a retaining element (1) that, for fixing the airbag (3) to the supporting element (2), interacts therewith. A section (32) of the airbag (3) passes completely through the opening (20) of the supporting element (2) to the other side of the supporting element (2) and is held there in front of the other surface (22) of the supporting element (2) by means of the retaining element (1). The dimensions both of the opening (20) of the supporting element (2) as well as of the retaining element (1) are matched to one another whereby enabling the retaining element (1) to be guided through the opening (20) in a first spatial orientation, and an edge area of the opening (20) prevents the retaining element (1) from moving in at least one second spatial orientation of the retaining element (1).

Description

 AIRBAGE UNIT WITH HOLDING ELEMENT AND CARRYING ELEMENT FOR FIXING THE GAS BAG

description

The invention relates to an airbag unit according to the preamble of claim 1.

Such an airbag unit is part of an airbag module which is used in motor vehicles to protect an occupant in the event of a crash. It comprises an airbag inflatable by means of a gas generator; a flat carrier element, in front of which a surface of the gas bag is arranged and which has an opening for fixing the gas bag to the carrier element; and a holding element which cooperates with the support element to fix the gas bag to the support element.

From DE 296 06 724 an airbag module for a vehicle is known in which the gas bag is fixed with the aid of a fastening frame, two bolts with a nut and washer and a fastening strip and is connected to a gas generator. The fastening frame is inserted into the gas bag and positioned within the gas bag so that on the one hand the inflow opening of the gas bag and a corresponding opening of the fastening frame are arranged congruently and on the other hand two openings in the gas bag and fastening frame for the screw connection are arranged one above the other. The mounting frame with gas bag is designed such that after this first assembly is connected to the gas generator assembly, the inflow opening of the gas bag and the outflow opening of the gas generator overlap. The pre-assembled gas generator assembly is formed by assembling Gas generator, mounting strips and a cover plate for covering a second outflow opening of the gas generator.

The invention is based on the problem of providing an airbag unit that is easy to assemble and that enables the gas bag to be reliably fixed to a carrier element of the airbag unit using simple means.

This object is achieved according to the invention by creating an airbag unit with the features of patent claim 1.

Then a portion of the gas bag extends through the opening of the carrier element to the other side of the carrier element and is held there in front of the other surface of the carrier element by means of the holding element. The dimensions of the opening of the carrier element and of the holding element are selected such that the holding element can be passed through the opening of the carrier element in a first spatial orientation along a lead-through axis. In a second spatial orientation, which in particular corresponds to an orientation essentially transverse to the first spatial orientation, it is not possible to pass the holding element through the opening of the carrier element. The edge region of the opening of the carrier element and surface elements of the holding element then lie against one another.

The simple positioning and fixing of the gas bag to the carrier element is advantageous in the solution according to the invention. Assembly is possible without additional mechanical auxiliary devices and disassembly of defective components can be carried out easily.

The holding element is preferably received within an interior space formed by the associated gas bag section. Alternatively, the holding element can only be wrapped around by the gas bag section.

The carrier element and the holding element are designed and arranged in such a way that the holding element engages behind the opening in the carrier element in a form-fitting manner and that the holding element which is wrapped or received by the gas bag section during an airbag release, in which the gas bag unfolds due to the inflow of the gas generated by the gas generator, is pressed against the carrier element.

When the airbag is deployed, the gas bag deploys due to the inflowing gas generated by the gas generator and the resulting forces acting in the gas bag deployment direction partially pull the gas bag section through the opening of the carrier element, with the holding element, which is partly wrapped or received by the gas bag section, in the direction the airbag deployment is pulled. Due to the selected geometry, the holding element is pressed against the edge of the opening of the carrier element. The tensile forces generated by the gas bag deployment on the holding element thus brace the holding element and the carrier element against one another, preventing the gas bag section from being pulled further through the opening of the carrier element from the holding element and the gas bag being held on the carrier element.

The holding element is expediently designed as a plate with such a thickness and edge lengths and the opening of the carrier element in the form of a slot with such a slot width and a slot length that the plate thickness is smaller than the slot width and at least one edge length of the plate is smaller than the slot length of the carrier element. The holding element and the opening of the carrier element can also be designed in accordance with other geometric shapes. In a preferred embodiment of the airbag unit, the holding element is provided with a throughflow opening and the airbag in the region of the airbag section is provided with an inflow opening, which are arranged adjacent to the opening of the carrier element.

The airbag unit according to the invention can advantageously be used in an airbag module in which a gas generator with an outflow opening is arranged such that the inflow opening of the gas bag and the outflow opening of the gas generator overlap one another. When the airbag is triggered, it is thus possible for the gas generated by the gas generator to flow directly into the gas bag in the region of the fastening point at which the gas bag is fixed to the carrier element.

For the defined positioning of the holding element in the airbag unit and for the gas generator, a tubular, in particular cylindrical, element is preferably arranged so that it projects through the throughflow opening of the holding element and the opening of the carrier element. In this way, the positioning of the holding element, the gas bag section, the carrier element and the gas generator relative to one another is facilitated and tilting of the holding element is prevented. To introduce the gas into the gas bag, the tubular element has a gas outlet in the form of a tube opening.

In a variant of the invention, the tubular element is arranged at the outflow opening of the gas generator and projects through the inflow opening of the gas bag, the throughflow opening of the holding element and the opening of the carrier element. The tube opening opens into the gas bag to allow the gas to flow in when the airbag is deployed. The risk of gas escaping and / or of the holding element being displaced by the Compressing forces on the holding element occurring during the blowing of the gas into the gas bag are avoided.

In a further variant, the tubular element is arranged at the throughflow opening of the holding element and projects with the tube opening through the opening of the carrier element into the gas bag, the throughflow opening with the tubular element being positioned at the outflow opening of the gas generator.

Other geometrical shapes of an element for positioning the holding element in the airbag unit and for the gas generator are also conceivable. Furthermore, the element can, for example, also be made shorter and not protrude into the gas bag.

In one embodiment, the carrier element is part of a housing which at least partially encompasses the gas generator and thereby positions the holding element with the gas bag in relation to the gas generator. The housing and the gas generator are fixed to each other with screw connections. The housing can subsequently be used to fasten the airbag module in the vehicle.

A multi-part holding device which has two clamps can advantageously be used for positioning and receiving the airbag unit and the gas generator. The clamps at least partially encompass the gas generator and accommodate the essentially flat support element at a defined distance from the gas generator. Furthermore, the clamps have openings for receiving the carrier element and are supported on the gas generator.

The clamps are arranged on both sides of the outflow opening, along an extension direction of the support element, and contain ten each have an opening for receiving the support element, the support element having bending sections at its end sections. The bending sections protrude from the openings and are bent essentially transversely to the openings, so that the bending sections fix the carrier element to the clamps.

A quick and easy assembly of airbag unit and gas generator as well as a low weight are advantageous in this version.

An advantageous development of the invention is achieved in that the holding device has at least one fastening element which fixes the gas generator to the carrier element and encloses the gas generator in the region of the outflow openings in such a gas-tight manner that a chamber opening into the gas bag is formed. In this way, a simple assembly can be combined with a saving of additional parts, it also being possible here to dispense with the lengthy alignment of the fastening element and / or the outflow openings.

Rapid assembly is also achieved by designing the fastening element as a separate part, which can be connected to the carrier part, in particular by pushing on, conical pressing or screwing. On the one hand, simple manufacture of the separate part is possible. On the other hand, the airbag unit can be easily adapted to different gas generator types, since only the separate fastening part has to be replaced.

A clamp-shaped fastening element can have a threaded attachment and a screw guided therein, the screw being used for the radial bracing of the gas generator which is stable in the clamp-shaped fastening element. It is achieved in such a way that the retaining element ment and thus also the gas bag is firmly pressed onto the carrier element.

By means of a further annular fastening element connected to the carrier element, the fastening of the gas generator to the carrier element can be further simplified if the gas generator can only be pushed through the annular fastening element for fastening.

In one configuration of the airbag unit, the carrier element is designed in several parts. Two parts of the carrier element are provided with cutouts which, arranged adjacent, form the opening of the carrier element, wherein the parts of the carrier element can have extensions which at least partially encompass the gas generator.

The gas generator is advantageously of cylindrical design and has an outflow opening provided on the cylinder jacket surface.

For easy orientation of the holding element in the airbag module, a stabilizing element is provided, which is arranged between the holding element and the gas generator and supports the holding element on the holding device or the housing.

In order to further simplify the assembly and to achieve a clear alignment of the gas bag, the holding element can advantageously be fixed on the inside of the gas bag. It is thereby achieved that the holding element cannot slip when the gas bag is folded and when the gas bag is installed in the housing.

To fix the holding element, at least one fabric part can be attached, in particular sewn, to the inside of the gas bag. The seams are so in the edge area that a pocket is formed between the fabric part and the gas bag, which serves to receive and fix the holding element. In a part of the edge area, for example a longitudinal or transverse edge, of the fabric part there is no need for fastening, so that an opening of the pocket is created through which the holding element can be inserted into the pocket. In an advantageous development, at least two fabric parts are provided which have openings opening in opposite directions. When the two fabric parts are arranged one above the other or opposite one another, a secure pocket secured against slipping out can be formed for receiving the holding element. The holding element can also be introduced into the pocket via a slot arranged in the central region of the fabric part. Securing against slipping out can also be achieved by means of tabs sewn across the fabric part.

The invention will be explained in more detail below with reference to the attached figures.

Show it:

La: a cross section through a section of an airbag unit with an airbag, a carrier element and a holding element for fixing the airbag to the carrier element;

Fig. Lb: a cross section according to Fig la, wherein the holding element is provided with a through-flow opening and the gas bag with an inflow opening in the region of the holding element;

2a shows a cross section according to FIG. 1b, a gas generator with an outflow opening being additionally shown; 2b: a further development of the exemplary embodiment from FIG. 2a with a tubular element which is arranged at the outflow opening of the gas generator;

2c: a further development of the exemplary embodiment from FIG. 2a with a tubular element which is arranged on the holding element;

3a shows a perspective view of an airbag unit according to FIG. 2b after assembly;

3b: an exploded view of the individual parts of an airbag module according to FIG. 3a;

4: a view of a one-piece carrier element;

4a: a perspective view of an airbag unit with the carrier element from FIG. 4;

4b: a perspective view of the airbag unit from FIG. 4a with a packaged gas bag;

4c: a cross section through the airbag unit from FIG. 4b;

5: a view of a two-part carrier element;

6 shows a perspective view of an airbag unit with the carrier element from FIG. 5;

7 shows a cross section through an airbag unit with a stabilizing element in the region of the holding element; 8: a cross section of an airbag unit with a carrier element on which a receiving device for an airbag is molded;

9a: a longitudinal section of a section of an airbag unit with a housing, a gas generator, a carrier element and a holding element for fixing a gas bag to the carrier element;

9b: cross section through the airbag unit according to FIG. 9a,

9c: an exploded view of the individual parts of the airbag module according to FIGS. 9a and 9b;

10a: a longitudinal section of a section of an airbag module in a further embodiment with a gas generator, a housing, a gas bag, a carrier element and a holding element for fixing the gas bag to the carrier element;

10b: a cross section through the airbag module according to FIG. 10a;

10c: an exploded view of the individual parts of the airbag module according to FIGS. 10a and 10b;

11a: a longitudinal section through an airbag module in a further embodiment with a housing, a carrier element, a gas bag and a holding element for fastening the gas bag to the carrier element and a clamp for fastening the gas generator to the housing;

11b: a cross section through the airbag module according to FIG. 11a; 12a: a longitudinal section of a section of an airbag module in a further embodiment with a gas generator which is fastened by means of a clamp which is formed in one piece with the housing;

12b: a cross section through the airbag module according to FIG. 12a;

13a: a longitudinal section through a further airbag module with a gas generator, which is clamped to the carrier element via a clamp with a threaded insert arranged thereon;

13b: a cross section through the airbag module according to FIG. 13a;

14: a perspective view of the inside of an airbag, with a pocket on the airbag for receiving the holding element, which is closed on three sides and open on one side;

15: a perspective view of the inside of the gas bag with two pockets for receiving the holding element;

Fig. 16: perspective view of the inside of the gas bag with two pockets for receiving the holding element in a further embodiment;

17 shows a perspective view of the inside of the gas bag with a pocket for receiving the holding element, which has a cut in its central region; Fig. 18: a perspective view of the inside of the gas bag with a pocket for receiving the holding element and a tab for securing the position of the holding element; and

Fig. 19: a perspective view of the inside of the gas bag with a pocket for receiving the holding element, the holding element being secured against slipping out of the pocket with two tabs.

Figure la shows a cross section through an airbag unit in the region of a carrier element 2, which has an opening 20. On one side of the carrier element 2, i.e. In addition to the one surface 21 of the carrier element 2, a gas bag 3 is arranged, which is indicated in FIG. 1 a in the inflated state. A section 32 of the gas bag 3 is guided through the opening 20 in the carrier element 2 to the other side of the carrier element 2 and extends there next to the other surface 22 of the carrier element 2. In this gas bag section 32, a holding element 1 in the form of a holding plate is inserted , which engages behind the edge of the opening 20 in the carrier element 2 and thereby positively secures the said gas bag section 32 against slipping through the opening 20. When the gas bag 3 is inflated, the holding element 1 lies against the edge of the opening 20 due to the forces acting during the inflation, so that the gas bag section 32 is clamped between the holding element 1 and the carrier element 2. As a result, the gas bag 3 is positively fixed on the carrier element 2 in the region of the opening 20 by means of the holding element 1.

In the exemplary embodiment according to FIGS. 1b and 2a, the holding element 1 is additionally provided with a throughflow opening 10 and the gas bag section 32 surrounding the holding element 1 is equipped with an inflow opening 30, both the inflow opening 30 and the throughflow opening 10 are aligned with the opening 20 in the carrier element 2. Furthermore, a gas generator 4 in the form of a tubular gas generator with an outflow opening 40 arranged on its cylinder jacket surface is positioned in such a way that the outflow opening 40 of the gas generator 4, the inflow opening 30 of the gas bag 3, the throughflow opening 10 of the holding element 1 and the opening 20 of the carrier element 2 one behind the other are arranged and gas emerging from the gas generator 4 can flow into the gas bag 3. The holding element 1 is positioned and received between the gas generator 4 and the carrier element 2.

The cross section shown in FIG. 2b shows, in a further development of the exemplary embodiment from FIGS. 1b and 2a, a tubular element 6 arranged in the outflow opening 40 of the gas generator 4, which passes through the inflow opening 30 of the gas bag 3, the throughflow opening 10 holding element 1 and the opening 20 in protrudes into the airbag 3 with its gas outlet 60. The tubular element 6 serves on the one hand for blowing gas into the gas bag 3 and on the other hand for aligning the assemblies 1, 2, 3 and 4 shown in FIG. 2b.

FIG. 2 c shows a modification of the exemplary embodiment from FIG. 2 b, in which the tubular element 6 is fixed to the holding element 1 and is aligned with the outflow opening 40 of the gas generator 4. The holding element 1 and the tubular element 6 can also be formed in one piece, for example by the tubular element 6 being molded onto the holding element 1.

FIG. 3a shows a perspective view of an airbag module with an airbag 3, with a gas generator 4 for inflating the airbag 3 and a holding element 1 for fastening the airbag 3 to a carrier element 2 in an arrangement according to FIG. 2b, the carrier element 2 in Shape of a support plate is an integral part of a housing 5 accommodating the gas generator 4.

The holding element 1 is partially encircled by a gas bag section 32 projecting through the opening 20 in the carrier element 2 and is located on the side of the carrier element 2 facing away from the folded gas bag. The housing 5 is so on the gas generator 4 equipped with the tubular element 6 placed that the tubular element 6 projects through the inflow opening 30 of the airbag 3, the throughflow opening 10 of the holding element 1 and the opening 20 of the carrier element 2 into the airbag 3. On the side of the housing 5 facing away from the carrier element 2, two radially projecting flanges 51, 52 are formed on it, which are braced against one another by means of two screw connections, so that the housing 5 encloses the gas generator 4. To insert the gas generator 4 into the housing 5, it can be spread apart in the region of the flanges 51, 52 before the screw connections are tightened.

FIG. 3b shows an exploded view of the airbag module from FIG. 3a. For mounting the airbag unit, the holding element 1 is inserted into the airbag 3 through an outflow opening 31, and the throughflow opening 10 of the holding element 1 is positioned congruently with the inflow opening 30 of the airbag 3. Subsequently, the holding element 1 together with the surrounding gas bag section 32 is guided from outside the housing 5 through the opening 20 of the carrier element 2 and positioned on the other side of the carrier element 2 inside the housing 5 such that the inflow opening 30 of the gas bag 3 and the opening 20 of the carrier element 2 is aligned with the throughflow opening 10 of the holding element 1 and there is a flow connection. The holding element has a thickness d and two edge lengths 1, 1 'and the carrier element has a slot length L and a slot width B. To assemble the airbag module, the housing 5 is then placed on the gas generator 4 such that the tubular element 6 projects into the gas bag 3 through the inflow opening 30 of the gas bag 3, the throughflow opening 10 of the holding element 1 and the opening 20 of the carrier element 2.

FIG. 4 shows a representation of a carrier element 2 as an individual part. The carrier element 2 has, as an opening 20, a slot with a width B and such a slot length L that the holding element 1, on the one hand, is guided through the slot 20 in a vertical orientation to the carrier element 2 can and, on the other hand, engages behind the edge of the slot 20 when aligned parallel to the slot 20. The two lateral end sections 9 of the carrier element 2 are each connected to the base body of the carrier element 2 via webs and serve as bending sections.

FIG. 4a shows the carrier element 2 from FIG. 4 as part of an airbag unit. Thereafter, a holding device consisting of two clamps 7, 7 ′ engages around the gas generator 4, the clamps 7, 7 ″ having openings 11 for receiving the carrier element 2.

The gas bag section 32 with the holding element 1 is passed through the opening 20 of the carrier element 2 and the carrier element 2 is placed on the gas generator 4 such that the tubular element 6 of the gas generator 4 projects into the gas bag 3 through the inflow opening 30 of the gas bag 3. Furthermore, the carrier element 2 is positioned such that the direction of extension of the gas generator 4 and the direction of extension of the elongate carrier element 2 run along a common axis. The two clamps 7, 7 'are placed on the gas generator 4 in such a way that they receive the carrier element 2 in the openings 11 in the region of a connecting web, the bending sections 9 coming out of the openings 11 protrude. By interlocking the bending sections 9, the carrier element 2 is fixed in its position in relation to the gas generator 4.

FIG. 4b shows the perspective illustration of an airbag module according to FIG. 4a, a receptacle 33 for the folded gas bag also being shown. This is located on the side of the carrier element 2 facing away from the gas generator 4.

FIG. 4c shows a cross section through the module from FIG. 4b. The holding element 1 is evidently enclosed by a gas bag section 32 and is fixed in the vertical direction with respect to its plane of extension by the carrier element 2 and the gas generator 4 and in the horizontal direction by the tubular element 6. The tubular element 6 protrudes into the gas bag 3.

FIG. 5 shows a two-part carrier element 2, consisting of two identically shaped T-shaped parts 8, 8 ', each of which has a cutout 12 or 12' at the free end of its middle leg 80, 80 '. If the two T-shaped parts 8, 8 'are joined together with their middle legs 80, 80' to form an H-shaped part, as shown in FIG. 5, the two middle legs 80, 80 'form a carrier element with one through the two cutouts 12, 12 'formed slot as an opening of the support member.

An example of an airbag unit with a carrier element 2 according to FIG. 5 is shown in FIG. 6. The holding element 1 is in turn inserted into a gas bag section 32 and, together with the folded gas bag 3 and packed in a receptacle 33, is placed on the tubular element 6 arranged on the outflow opening 40 of the gas generator 4 and the gas generator 4. The two parts 8, 8 'forming the carrier element are pushed onto the gas generator 4 in the direction of extension (axial direction) of the gas generator 4 such that the cutouts 12, 12' are positioned as shown in FIG. 5 such that an opening of the carrier element is formed which passes through the tubular element 6 and is arranged behind the holding element 1.

FIG. 7 shows a section through an airbag module, in which, in a development of the previous exemplary embodiments, a stabilizing element 90 is provided for positioning the holding element 1. The stabilizing element 90 is arranged in the airbag module in such a way that it is positioned between the holding element 1 (with gas bag section 32) and the outer wall of the gas generator 4 and is supported on the carrier element 2.

FIG. 8 shows a further embodiment of an airbag module with a carrier element 2 forming part of a housing 5, the housing 5 being designed such that both the gas bag 3 and the gas generator 4 are accommodated in the housing and the carrier element 2 is used to hold the Separates the gas generator 4 provided chamber from the storage space 14 provided for receiving the gas bag 3 and formed by a receiving device 13 of the housing 5. A tubular element 6 is designed as a component of the holding element 1 and projects through an opening 20 of the carrier element 2 into the gas bag 3, which is arranged in the storage space 14.

FIGS. 9a, 9b and 9c show a section of an airbag module with a housing 5 and a gas generator 4. The housing 5 serves to receive the folded gas bag 3. The side of the housing 5 pointing towards the gas generator 4 is designed as a carrier element 2 with a slot-shaped opening 20. A section 32 of the gas bag 3 is fastened to the carrier element 2 with the aid of a holding element 1 in accordance with the principle described in the previous exemplary embodiments. The holding element element 1 is located on the inside of the gas bag 3 and is passed through the slit-shaped opening 20 of the carrier element 2 in a first orientation and then brought into a second orientation such that the gas bag 3 is fixed to the carrier element 2.

A tubular element 6 is guided through the holding element 1 and the gas bag 3 in the region of an inflow opening of the gas bag 3. The tubular element 6 can at the same time also serve as a diffuser and be given a configuration corresponding to the desired inflow conditions.

The gas generator 4 is fixed to the housing 5 in the embodiment shown in FIGS. 9a, 9b and 9c via two fastening elements 550, 800. The fastening element 550 provided in the rear end of the gas generator 4 opposite the outflow opening 40 of the gas generator 4 is formed in one piece with the housing 5. This fastening element 550 is designed in the form of a ring through which the tubular gas generator 4 can be passed. A stop region 41 of the gas generator 4 having a larger diameter than the ring prevents the gas generator 4 from slipping out of the annular fastening element 550.

On its other side, which has the outflow opening 40, the gas generator 4 is held on the housing 5 by a further fastening element 800. The fastening element 800 is a separate part which is pushed onto the gas generator 4 in the direction X along the axis of the gas generator 4. As shown in FIG. 9b, the fastening element 800 has engagement elements 801, 802 which engage under correspondingly designed receptacles 501, 502 of the housing 5. When inserting the fastening element 800, the engagement elements 801, 802 engage under the receptacle 501, 502 and fix the fastening element element 800 on the housing 5. The fastening element 800 is fixed to the gas generator by means of a washer 811, which is attached to a thread of the gas generator, with a nut 810.

The gas generator 4 is thus clamped between the stop element 41 formed in the rear region of the gas generator 4 and the nut 810 between the two fastening elements 550, 800.

The fastening element 800 also serves to conduct gas emerging from the outflow opening 40 of the gas generator 4 into the tubular element 6. The fastening element 800 surrounds the front part of the gas generator 4 and thus also the outflow openings 40 of the gas generator 4. This surrounds a closed chamber the outflow openings 40 of the gas generator 4 are formed, which open into the gas bag 3 via the tubular element 6.

The airbag module of FIGS. 9a and 9b is shown in an exploded view in FIG. 9c. The airbag 3 with its holding element 1 attached on the inside, which has a throughflow opening 10, has a shape adapted to the housing 5. The area 32 of the gas bag 3 can be passed through the slit-shaped opening 20 of the carrier element 2 of the housing 5. The holding element 1 is guided perpendicularly to the carrier element 2 through the slot 20. Thereafter, the holding element 1 is brought into a position parallel to the carrier element 2 and the airbag 3 is thus fixed on the housing 5.

The tubular element 6 is inserted through the inflow opening 10 of the holding element 1 and the gas bag 3. Subsequently, the separate fastening element 800 is brought into engagement with the lower region of the tubular element 6 such that it engages with its protruding engagement elements 801, 802 engages under the receptacles 501, 502 of the housing 5. The gas generator is then passed through the annular fastening element 550, which is formed in one piece with the housing 5, and the separate fastening element 800 until it strikes the fastening element 550 in its stop region 41. By screwing the nut 810 and the washer 811, the separate holding element 800 is pressed onto the gas generator 4 in such a way that a tight chamber is formed around the outflow openings 40 of the gas generator 4, which opens into the gas bag 3 via the tubular element 6. The separate fastening element 800 is fixed on the housing 5 by the engagement of the engagement elements 801, 802 under the receptacles 501, 502.

A further embodiment of an airbag module is shown in FIGS. 10a, 10b and 10c. A housing 5 in turn serves to accommodate an airbag 3, which is fixed to the housing 5 with the aid of a holding element 1 which is guided through a slot-shaped opening 20 in the carrier element 2. As already described in FIGS. 9a to 9c, a gas generator 4 is fixed at its rear end via an annular fastening element 550 which is formed in one piece with the housing 5. The attachment of the front end of the gas generator 4, which has the outflow openings 40 of the gas generator 4, now differs from the manner described above.

In the area of the tubular element 6, a further, clamp-shaped element 540 is formed in one piece with the housing 5. A fastening element 840 can be introduced into this clamp-shaped element 540, which sealingly surrounds the front region of the gas generator in such a way that a chamber for the gas flow of the gas flowing out of the outflow openings 40 of the gas generator 4 is again formed in the gas bag 3 via the tubular element 6 , The gas generator 4 is connected to the fastening element 840 via a nut 810 and a washer 811 attached. The fastening element 840 is conical in parts of its outer area. The clamp-shaped element 540 has an opposite taper. By inserting the fastening element 840 in the x direction along the axis of the gas generator 4, the conical regions of the clamp-shaped element 540 come into engagement with the opposite conical regions of the fastening element 840.

The gas generator is therefore clamped between the rear clamp-shaped element 550 and the front clamp-shaped element 540 of the housing due to the conical jamming with the fastening element 840, which is held over the screw connection. The gas generator 4 is thus reliably fixed on the housing 5.

A representation of a further airbag module is shown in FIGS. 11a and 11b. A housing 5 is again provided for receiving the gas bag 3, the gas bag 3 being connected to the housing 5 via a holding part 1 which is fixed to the carrier element 2 in the manner described. In the embodiment shown, the holding part 1 has a tubular element 16 which is formed in one piece and which serves to introduce a gas stream from a gas generator 4 into the gas bag 3. The integrally molded tubular region 16 can also be designed in the form of a diffuser.

The gas generator 4 is fixed on the housing 5 here by means of a separate clamp 860, which is connected to the housing via screw connections 861, 862. The clamp 860 seals an outflow opening of the gas generator 4 located at the bottom. The outflow opening of the gas generator pointing in the direction of the tubular region 16 remains free. The gases therefore emerge exclusively through the opening mentioned last Gas generator off and get into the gas bag 3 via the tubular region 16 of the holding element 1.

A further embodiment of the fastening principle of FIGS. 11a and 11b is shown in FIGS. 12a and 12b. A gas bag 3 is in turn fixed to the housing 5 via a holding element 1 having a tubular region 16 on the carrier element 2. A gas generator 4 is fixed to the housing 5 by means of a clamp 58 formed in one piece with the housing 5. The clamp 58 has two regions that can be spread apart and can be clamped against one another via a screw connection 581 in such a way that the gas generator 4 is fixed. This clamp 58 also seals only an outflow opening of the gas generator 4 located at the bottom, an additional sealing plug 583 being provided here. The path of the gases into the gas bag 3 corresponds to that described for FIGS. 11a and 11b.

FIGS. 13a and 13b show a further embodiment of an airbag module in which an airbag 3 is fixed in a housing 5 in the manner already described many times with a holding element 1. The housing 5 has a recess for receiving the gas generator 4, which receives it up to half its cross section. The gas generator 4 is fastened via a clamp 58 which is formed in one piece with the housing 5. The clamp 58 can also be designed as a separate component.

A threaded attachment 580 is provided on the clamp 58 and serves to receive a threaded screw 582. The threaded screw 582 presses against an area of the gas generator 4 and engages in particular in an outflow opening of the gas generator 4. By engaging the screw 582 in an outflow opening of the gas generator 4, the gas generator is first axially fixed and the outflow opening is closed. Like in the Description of FIGS. 11 and 12 leaves only the outflow opening of the gas generator pointing in the direction of the throughflow opening of the holding element 1. If the screw 582 is tightened, the gas generator 4 is displaced radially in the direction of the holding element 1 and braced against the clamp 58. At the same time, the gas bag 3 is clamped with the holding element 1 between the gas generator 4 and the carrier element 2.

In the following FIGS. 14 to 19, different possibilities for fixing the holding element 1 on the inside of the gas bag 3 are discussed. The drawings each show perspective views of the inside of the gas bag. The bold, also dashed line always represents the holding element 1, whereas thin dashed lines represent seams.

FIG. 14 shows a fabric pocket for fixing the holding element 1 on the inside of the gas bag 3. The fabric pocket has a fabric part 300 sewn onto the inside of the gas bag 3, which is somewhat larger in its dimensions than the holding element 1 to be inserted. The edges of the fabric part 300 which protrude when the holding element 1 is inserted are attached to the side by means of a seam 310 on three sides Airbag 3 is sewn. No seam is provided on one side 320 and the fabric pocket thus formed is open. Through this open side 320, the holding element 1 can be inserted into the fabric pocket thus formed.

An opening 10 for the gas to flow through from a gas generator into the interior of the gas bag is provided both in the fabric of the gas bag 3 and in the fabric 300 forming the pocket and the holding element 1 itself.

A second embodiment for forming a fabric pocket for receiving the holding element 1 is shown in FIG. 15. Here are two fabric parts 300 sewn onto the gas bag 3 with the aid of seams 310. The seams 310 are designed such that the opposite sides 320 of the fabric parts 300 have no seams. This creates two pocket-shaped areas that open towards each other. In the exemplary embodiment shown, the fabric parts 300 each cover about a third of the holding element 1, so that the middle third of the holding element 1 is not covered with a fabric part.

Another embodiment is shown in FIG. 16. Two fabric parts 300 and 300 'are arranged one above the other, the upper fabric part 300 having larger edge lengths than the fabric part 300' underneath. The lower fabric part 300 'is sewn to the gas bag 3 with three seams 310' in such a way that a pocket which is open on one longitudinal side is produced. This pocket is dimensioned again so that the holding element 1 can be fully inserted.

The larger fabric part 300 is placed over the lower fabric part 300 'and provided with a seam 310 such that it is also open on a transverse side. However, the opening of the upper pocket created in this way is opposite to the opening of the lower pocket. The holding element 1 inserted into the lower pocket is thus secured against slipping out.

FIG. 17 shows a further pocket which can be used to fix the holding element 1 inside the gas bag 3. Again, a fabric part 300, which has larger dimensions than the holding part 1, is sewn onto the gas bag 3. The fabric part 300 is closed on all four sides by means of seams 310 and has a slot 330 in its central region, which is used to insert the holding part 1 into the pocket thus created. In a further embodiment in FIG. 18, a fabric web 300, which is somewhat larger than the holding element 1, is provided with a seam 320 on three of its sides. On the still open long side, the seam is continued up to about a third, so that only about two thirds of the length of the holding part of the resulting pocket is open. As a result, the holding part 1 can be inserted into the pocket.

In order to prevent the holding part 1 from slipping out of the resulting pocket, a tab 350 is provided which is sewn over the resulting pocket and which is provided in the region of the pocket opening. The flap is only sewn to the gas bag 3 in two areas and is open on its long sides.

FIG. 19 shows a further embodiment for fixing the holding element 1 to the gas bag 3. The fabric 300 forming the pocket for receiving the holding element 1 is closed on three sides with a seam 310. Two tabs 350 are sewn across the pocket. The tabs 350 are sewn to the gas bag 3 only at their end regions and are accordingly open on their long sides 360. The holding element 1 can thus be easily inserted into the pocket formed from the fabric 300 and is secured against slipping out by the tabs 350.

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Claims

claims

1. Airbag unit with

an airbag (3),

a flat carrier element (2), in front of one surface (21) of which the gas bag (3) is arranged and which has an opening (20) for fixing the gas bag (3) to the carrier element (2), and

a holding element (1) which cooperates with the carrier element (2) to fix the gas bag (3),

wherein a section (32) of the gas bag (3) extends through the opening (20) of the carrier element (2) to the other side of the carrier element (2) and there in front of the other surface (22) of the carrier element (2) by means of the Holding element (1) is held,

characterized,

that the dimensions of the opening (20) of the carrier element (2) on the one hand and of the holding element (1) on the other hand are matched to one another such that the holding element (1) can be guided through the opening (20) in a first spatial orientation and an edge region of the Opening (20) prevents the holding element (1) from being passed through in at least a second spatial orientation of the holding element (1).

2. Airbag unit according to claim 1, characterized in that the gas bag section (32) receives the holding element (1).

3. Airbag unit according to claim 1 or 2, characterized in that the gas bag section (32) by the holding element (1) on the carrier element (2) is positively held.

4. Airbag unit according to claim 3, characterized in that the holding element (1) engages behind the edge of the opening (20) of the carrier element (2).

Airbag unit according to one of the preceding claims, characterized in that the holding element (1) is designed as a holding plate which, when oriented essentially parallel to the associated surface (22) of the carrier element (2), the edge of the opening (20) of the carrier element (2) engages behind and can be guided through the opening (20) of the carrier element (2) with a substantially vertical orientation to the associated surface (22) of the carrier element (2).

Airbag unit according to one of the preceding claims, characterized in that the opening (20) of the carrier element has a slot of a given width (B) and slot length (L) and that the holding element (1) as a holding plate with such a thickness (d) and with such Edge lengths (1, 1 ') is such that the thickness (d) of the holding plate (1) is less than the width (B) of the slot (20) and at least one edge length (1, 1') of the holding plate (1) is less than is the slot length (L).

7. Airbag unit according to one of the preceding claims, characterized in that the holding element (1) has a flow opening (10) and the gas bag (3) in the region of the gas bag section (32) has an inflow opening (30) which is in line with the opening (20) of the carrier element (2) cooperate to form a gas passage.

Airbag unit according to claim 7 with a gas generator (4) for inflating the gas bag (3), characterized in that the outflow opening (40) of the gas generator (4) and the inflow opening (30) of the gas bag (3) are positioned so that the gas generated by the gas generator (4) can flow into the gas bag (3).

9. Airbag unit according to claim 7 or 8, characterized in that for positioning the holding element (1) with respect to the carrier element (2), a tubular element (6) is arranged so that the tubular element (6) through the flow opening (10) of the Holding element (1) and the opening (20) of the support element (2) protrudes therethrough.

10. Airbag unit according to claim 9, characterized in that the tubular element (6) is hollow-cylindrical.

11. Airbag unit according to claim 9 or 10, characterized in that the gas generator (4) has a at the outflow opening (40) arranged, tubular element (6) through the inflow opening (30) of the gas bag (3), the throughflow opening ( 10) of the holding element (1) and the opening (20) of the carrier element (2) protrudes therethrough.

12. Airbag unit according to claim 11 or 12, characterized in that the holding element (1) is provided with a tubular element (6, 16) which is arranged on the flow opening (10) of the holding element (1) and thus to the carrier element (2nd ) is positioned so that it projects through the opening (20) of the carrier element (2).

13. Airbag unit according to claim 12, characterized in that the holding element (1) and the tubular element (6, 16) form a one-part or a multi-part assembly.

14. Airbag unit according to one of claims 8 to 13, characterized in that the carrier element (2) is part of a housing (5) comprising the gas generator (4) at least in sections.

15. Airbag unit according to one of claims 8 to 13, characterized in that a multi-part holding device (7, 7 ', 58, 540, 550, 800, 840, 860) is provided for receiving the gas generator (4).

16. Airbag unit according to claim 15, characterized in that the holding device (7, 7 ') holds the essentially flat support element (2) at a defined distance from the gas generator (4) and comprises the gas generator (4) at least in sections.

17. Airbag unit according to claim 15 or 16, characterized in that the holding device (7, 7 ') is formed by two clamps (7, 7') which a means (11) for Auf- have the support element (2).

18. Airbag unit according to claim 17, characterized in that the means (11) for receiving the carrier element (2) is designed as an opening.

19. Airbag unit according to one of claims 15 to 18, characterized in that a first clamp (7) and a second clamp (7 ') are arranged on both sides of the outflow opening (40) of the gas generator (4), that the clamps (7, 7 ') have two openings (11) along the direction of extension of the carrier element (2) and that the carrier element

(2) includes in its end sections bending sections (9) which emerge from the openings facing away from the outflow opening

(11) protrude, the support element (2) being fixable to the clamps (7, 7 ') by bending the bending sections (9) transversely to the direction of extension of the openings (11).

20. Airbag unit according to one of claims 15 to 19, characterized in that the holding device has at least one fastening element (800, 840) which fixes the gas generator on the carrier element (2) and the gas generator (4) in the region of the outflow openings (40) encloses it in a gas-tight manner such that a chamber opening into the gas bag (3) is formed.

21. Airbag unit according to one of claims 15 to 19, characterized in that the holding device has at least one fastening element (860, 58) which fixes the gas generator on the carrier element (2) and the gas generator (4) encloses gas-tight in the area of the outflow openings such that only one outflow opening pointing in the direction of a throughflow opening (10) of the holding element (1) remains free.

22. Airbag unit according to claim 20 or 21, characterized in that the fastening element (800, 840, 860) is designed as a separate part which can be connected to the carrier part (2), in particular by sliding on, conical pressing or screwing.

23. Airbag unit according to claim 20 or 21, characterized in that the fastening element (58) is designed in the form of a clamp and has a threaded projection (580) and a screw (582) guided therein, the screw (582) for radially bracing the in the clamped Fastening element (58) durable gas generator (4) is used.

24. Airbag unit according to one of claims 20 to 23, characterized in that the fastening element (58) has at least one sealing plug (583) for sealing an outflow opening of the gas generator (4).

25. Airbag unit according to one of claims 20 to 24, characterized in that the holding device has at least one further, with the carrier element (2) connected, annular fastening element (550) which serves to receive the gas generator (4) and through which the gas generator (4) can be pushed through.

26. Airbag unit according to one of the preceding claims, characterized in that the carrier element (2) is constructed in several parts.

27. Airbag unit according to claim 26, characterized in that a first part (8) and a second part (8 ') of the carrier element (2) each have a recess (12, 12') and the opening (20) of the carrier element (2nd ) is formed by the adjacent arrangement of the recesses (12, 12 ') of the two parts (8, 8') of the carrier element (2).

28. Airbag unit according to claim 26 or 27, characterized in that on the two parts (8, 8 ') of the carrier element (2) in each case the gas generator (4) at least partially comprising extensions (81, 81') are provided.

29. Airbag unit according to one of claims 8 to 28, characterized in that the gas generator (4) is designed as a tubular gas generator and the outflow opening (40) is arranged in its outer surface.

30. Airbag unit according to one of claims 8 to 29, characterized in that the carrier element (2) has a receiving device (13) which receives the gas bag (3) and forms a storage space (14) for the gas bag (3).

31. Airbag unit according to at least one of the preceding claims, characterized in that a flat stabilizing element (11) is arranged such that the holding element (1) on the stabilizing element (90) on Supporting element (2) or on an additional holding device (7, 7 ').

32. Airbag unit according to one of the preceding claims, characterized in that the holding element (1) on the inside of the gas bag (3) can be fixed.

33. Airbag unit according to claim 32, characterized in that at least one fabric part (300, 300 ') is attached, in particular sewn, in its edge region on the inside of the gas bag (3) in such a way that the holding element (1) is in a between the gas bag (3) and the fabric part (300, 300 ') formed pocket can be fixed.

34. Airbag unit according to claim 33, characterized in that the fabric part (300, 300 ') in at least part of the edge region (320, 320') is not connected to the gas bag (3), so that the holding element (1) in this Part of the edge area (320, 320 ') can be inserted into the pocket.

35. Airbag unit according to claim 34, characterized in that two fabric parts (300, 300 ') are arranged on the gas bag (3) in such a way that the parts of the edge region (320, 320') which are not connected to the gas bag (3) are located opposite one another are arranged so that the openings of the two emerging pockets point in opposite directions.

36. Airbag unit according to claim 35, characterized in that the two fabric parts (300, 300 ') are arranged one above the other. are arranged.

37. Airbag unit according to claim 33, characterized in that the fabric part (300) has a slot (330) for inserting the holding element (1).

38. Airbag unit according to claim 33 or 34, characterized in that at least one tab (360) connected to the gas bag (3) is guided over the fabric part (300) such that a holding element (1) located in the bag is secured against slipping out is.

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