WO2020104606A1 - Airbag element, airbag unit, vehicle occupant safety system, and method for producing an airbag element - Google Patents

Abstract

The invention relates to an airbag element (10) consisting of a textile blank (20) which has two substantially symmetrical halves (11, 12). The textile blank (20) is folded such that the halves (11, 12) overlap, and at least one folding edge (15) is formed. According to the invention, edge sections (21, 21'; 22, 22'; 25, 25'; 26, 26') of the halves (11, 12) are at least partly connected together such that at least three gas outlet openings (40a, 40b, and 40c) are formed.

Description

 Airbag element. Airbag unit. Vehicle occupant safety system as well

Method of manufacturing an airbag element

description

The invention relates to an airbag element consisting of a

Textile blank that has two essentially symmetrical halves, the textile blank being folded so that the halves overlap and at least one folded edge is formed, according to the preamble of patent claim 1.

The invention further relates to an airbag unit and a

Vehicle occupant safety system with such an airbag element. The

The invention also relates to a method for producing a

Airbag element.

An airbag element of the type mentioned at the outset is known, for example, from US Pat. No. 6,382,662 B1. The known gas bag element comprises one

Textile blank which, according to FIGS. 11-13 there, has two essentially symmetrical halves, the textile blank being folded in the middle, so that the halves overlap and a fold edge is formed. A gas inlet opening is formed on the folded edge in the folded state. Gas generated by a gas generator flows through this opening into the gas bag element. By forming at least three connecting seams, two side gas outlet openings are formed.

Gas outlet openings are also punched into the textile blank. Through the gas outlet openings, i.e. in the functional case, the gas generated with the aid of the gas generator flows from the gas bag element into a gas bag envelope in different directions, both through the lateral gas outlet openings and through the stamped-in gas outlet openings. With the help of the gas outlet openings, the inflation behavior of a gas bag envelope can be influenced.

When manufacturing the known gas bag element, however, several process steps have to be carried out. First, are in a textile blank punch the gas outlet openings first. Furthermore, in

folded state of the textile blank at least three seams or

Form joints to form the two side gas outlet openings.

The object of the invention is to provide an airbag element which has such a simple structure that the method for producing the airbag element can be simplified and accelerated.

Another object of the invention is to provide an airbag unit and a vehicle occupant safety system with such an airbag element. Furthermore, the invention is intended to provide a method for producing a

Airbag element are provided.

This task is performed with regard to the gas bag element by the

Subject of claim 1, with regard to the gas bag unit by the subject of claim 7, with regard to

 Vehicle occupant safety system solved by the subject matter of claim 8 and with regard to the method for manufacturing an airbag element by the subject matter of claim 9.

So the invention is based on the idea of an airbag element,

in particular for a driver airbag, in particular for a steering wheel airbag, or for a passenger airbag.

The gas bag element consists of a textile blank, the two in

Has essentially symmetrical halves, the textile blank being folded, so that the halves overlap and at least one folded edge is formed. In the following, a textile blank is to be understood to mean any blank of such an airbag material which, for example, forms a flat base material from fiber material and / or plastic material, from which a blank is formed. A textile blank is to be understood in particular as a blank from a plastic sheet.

Preferably, the textile blank is a flat textile structure, such as. B. a fabric. Textile blanks are to be understood as meaning both textile blanks which are cut from, for example, a web-shaped material, in particular laser-cut, and which are also punched out. The textile blank essentially has two symmetrical halves, in the following context essentially symmetrical halves are to be understood which have only slight deviations in terms of symmetry. Such are minor deviations

Understand deviations in the lower millimeter range. The symmetrical halves described are halves of this type which are symmetrical with regard to their outer contour. Cutouts and / or seams and / or folds which are not symmetrical to one another can be formed in the halves.

In other words, the gas bag element according to the invention consists of a textile blank that has two halves with an essentially symmetrical one

Has outer contours.

The textile blank is folded in such a way that the halves overlap and form at least one folded edge. In other words, the two halves lie on top of one another in such a way that they are connected to one another by means of a folded edge. The fold edge is preferably the axis of symmetry with regard to the symmetrical design of the two halves of the textile blank. The halves of the textile blank each have the at least one folded edge

Edge sections on.

According to the invention, edge sections of the halves are connected to one another at least in sections such that at least three gas outlet openings are formed.

In other words, the symmetrical halves of the textile blank are connected to one another at individual edge sections in the overlapping state. At least or at least three gas outlet openings are formed by connecting edge sections of the halves to one another. The at least three gas outlet openings are consequently formed exclusively on the basis of the connection of edge sections of the halves and by at least one folded edge. There are no additional die cuts. It is preferably provided that at least two edge sections of a first half are connected to one another with at least two edge sections of the second half. The at least three gas outlet openings are formed in that individual edge sections of the halves are not connected to one another.

Due to the construction of the gas bag element according to the invention, it can be produced with fewer process steps and consequently faster. There are no further cuts or cutouts in a textile blank

to introduce or incorporate. The production of an inventive

The gas bag element is consequently cheaper, so that a cheaper gas bag element can be made available.

According to one embodiment of the invention, the halves are arranged to overlap essentially congruently. Preferably, the two halves arranged symmetrically to one another are congruently folded overlapping along their axis of symmetry. Such is essentially congruent

Overlap or to understand such an arrangement of the halves one above the other so that only slight deviations in the degree of coverage can be determined. Minor deviations are understood to be deviations in the lower millimeter range.

Due to the symmetrical halves and the preferably congruent overlapping arrangement, the manufacturer is signaled whether the halves of the textile blank are correctly arranged with respect to each other for further processing. Any scanning of the halves of the textile blank to be arranged relative to one another can also be carried out easily due to the preferably congruent overlapping arrangement.

A gas inlet opening is preferably formed in one of the halves, in particular in the middle of this half. Gas from a gas generator can flow into this gas inlet opening when a gas bag unit is activated. A

The gas generator, which is preferably of round design, can be inserted into this gas inlet opening. Further, preferably smaller, openings are preferably formed around the gas inlet opening. With the help of these smaller openings, which are also called

Attachment openings can be referred to, a gas generator unit can be attached to the gas bag element. For this purpose, bolt-like or screw-like elements are introduced through the smaller openings

for example by means of nuts or the like fasteners

Airbag element can be attached.

Edge sections or a plurality of edge sections of a first half can be glued and / or sewn and / or welded to edge sections or a plurality of edge sections of the second half. Individual edge sections of the respective halves, however, are not connected to one another or are not connected. In the area of these non-interconnected edge sections or due to the non-interconnected edge sections, there are at least three

Gas outlet openings formed.

In a preferred embodiment of the invention, at most two edge sections are connected to one another, preferably in a straight line. In other words, two edge sections of a first half are each connected to two edge sections of the further and second half, respectively.

For example, the at most two edge sections of the first half are connected in a straight line to at most two edge sections of the second half. In other words, connection points are formed that are straight.

As an alternative or in addition, it is conceivable for the connection points to be of arcuate design or to have arcuate sections.

The halves of the textile blank can each be rectangular or square or hexagonal or equilateral hexagonal. If the halves are each rectangular, the textile blank is also rectangular, the fold edge or axis of symmetry of the textile blank halving the length of the rectangle of the textile blank. In the case of a hexagonal configuration of the halves, it is possible for the halves to have the basic shape of a trapezoid, in particular an isosceles trapezoid, the corners being cut off on the long base sides of the trapezoids. The two halves of the textile blank preferably have such edge courses that the halves can be divided into several edge sections. An edge section is formed from a corner of half of the textile blank to an adjacent corner of half of the textile blank.

For example, an edge section of one half is either completely connected or completely not connected to the edge section of the other half, which is arranged congruently. This makes it easier for the manufacturer to connect the halves to one another. In this case, the manufacturer or employee does not have to ensure that individual edge sections are only partially connected to one another. In this case, no reference points or markings need to be set.

In order to keep the basic shape of the halves of the textile blanks as simple as possible, it is also possible that an edge section of the first half only

is connected in sections to an edge section of the second half.

In a further embodiment of the invention, the

Edge sections of the halves, which are formed opposite the folded edge, are not connected to one another and form a gas outlet opening. The gas bag element preferably has a gas outlet opening opposite the folded edge.

In a further embodiment of the invention, the edge sections (of the halves) which are formed opposite the folded edge are formed parallel to the folded edge.

Furthermore, it is possible that the edge sections of the two halves, which adjoin the folding edge laterally, are each not connected to one another and each form a gas outlet opening. It is possible that the respective

Edge sections of the halves, which laterally adjoin the folded edge, are in turn divided into two sections or areas, the first section or area adjacent to the fold edge not being connected to the other first section or area of the edge section of the further half .

In other words, a gas outlet opening of the

Airbag element formed adjacent to the folded edge. In a particularly preferred embodiment of the invention, no gas outlet opening and / or no gas inlet opening is formed in the folded edge. The folded edge is preferably designed without interruption, so that none

Gas outlet opening and / or no gas inlet opening is formed. This has the advantage that when folding the textile blank it is not necessary to pay attention to whether the halves of the textile blanks are arranged one above the other and overlapping in such a way that a gas outlet opening and / or a gas inlet opening is formed. This facilitates the manufacturing process. The folded edge is preferably straight.

The axes of three gas outlet openings formed can form a T shape or a Y shape. The Y shape to be formed is the preferred shape of the three axes of the three gas outlet openings formed. The axes of the gas outlet openings are in each case the imaginary connecting lines, starting from the center of one half of the textile blank

trained gas inlet opening, in particular starting from its center, to understand the center of the non-connected edge sections. In one embodiment of the invention, the imaginary Y shape is preferably designed such that an angle of 120 degrees is included between each two axes. Such an imaginary Y shape has the effect that a gas generated by means of a gas generator flows out uniformly from the gas bag element.

In summary, it should be noted that the invention

Airbag element is particularly easy to manufacture because there are only a few

Process steps in the production are to be carried out. In addition, it is an extremely simple structure of an airbag element, so that

Material costs can be saved.

A secondary aspect of the invention relates to an airbag unit, in particular an airbag unit for a vehicle occupant safety system, particularly preferably an airbag unit which is integrated in a vehicle steering wheel.

The airbag unit according to the invention comprises an airbag cover and a

Airbag element according to the invention, the airbag element forming a gas distributor within the airbag envelope.

The gas bag unit preferably also comprises a gas generator. The gas bag element is preferably connected to the gas bag cover, in particular sewn and / or welded and / or glued.

It is possible that the gas bag element is connected to the gas bag cover in such a way that it is sewn and / or welded and / or glued in such a way that the gas bag element forms a tether of the gas bag unit. A tether or a retaining element serves to keep the gas bag cover flat in the activated state or to keep it in a desired shape.

According to further preferred embodiments, in which the gas bag element forms a tether of the gas bag unit, the half having a gas inlet opening is preferably connected to a textile blank forming a rear side of the gas bag unit, and / or free of openings

trained half connected to a textile blank forming a front of the gas bag unit.

The gas bag unit is preferably a

Passenger airbag or around a driver airbag, which is preferably designed integrated into the steering wheel of a vehicle. Furthermore, the invention relates according to a secondary aspect to a vehicle occupant safety system with an airbag unit according to the invention and at least one sensor for detecting vehicle status data and an activation unit which is designed to transmit a trigger signal as a function of detected vehicle movement data

Send airbag module.

Within the scope of the present invention, a method for producing an airbag element is also disclosed and claimed. The method can preferably be used to produce an airbag element according to the invention which has the construction features mentioned above. The method according to the invention has the following steps: a) providing a textile blank that has two essentially symmetrical halves, b) folding the textile blank such that the halves overlap and form at least one folded edge, and c) connecting edge sections of the halves at least in sections such that at least three gas outlet openings are formed.

With regard to the structural features of the gas bag element to be produced according to the invention, reference is made to the explanations in connection with the

Airbag element according to the invention referenced.

The aforementioned method steps are carried out in the order shown, it being preferably integrated in method step a) that a gas inlet opening is formed in one half of the textile blank. This gas inlet opening, into which a gas generator is or can be inserted, is preferably to be formed in the middle of one half of the textile blank. The gas inlet opening is preferably cut out or punched out from one half of the textile blank. The shape of the textile blank can by

Cutting, in particular laser cutting, or produced by punching.

In one embodiment of the method according to the invention, two edge sections of one half of the textile blank are sewn and / or glued and / or welded to one another with two edge sections of the second or further half of the textile blank such that at least three gas outlet openings are formed.

In a particularly preferred embodiment, in addition to the folding or in addition to the formation of the folding edge, only two connection points are created for producing the gas bag element.

In at least one further step, the gas bag element is connected to a gas bag envelope, in particular sewn, and then coupled to a gas generator in order to produce a gas bag unit.

A vehicle occupant safety system according to the invention is created by coupling an airbag unit according to the invention to at least one sensor for recording vehicle status data and an activation unit io

is designed to send a trigger signal as a function of detected vehicle movement data to the gas bag module in order to contribute to an activation of the gas bag unit.

The invention is explained in more detail below on the basis of exemplary embodiments with reference to the attached schematic drawings.

Show in it

La - lc a textile blank in a folded and unfolded state according to a first embodiment of the invention

Airbag element;

2a and 2b a textile blank in a folded and unfolded state according to a second embodiment of the invention

Airbag element;

3a and 3b a textile blank in a folded and in an unfolded state according to a third embodiment of the gas bag element according to the invention, and

Fig. 4 shows a cross section through an airbag unit according to the invention with an airbag element according to the invention.

In the following, the same reference numbers are used for the same and equivalent parts.

In Fig. La a textile blank 20 is shown, with which an airbag element 10 (see Fig. Lb and lc) is formed. The textile blank 20 has two symmetrical halves 11 and 12, namely a first half 11 and a second half 12. The two halves 11 and 12 are mirrored along the axis of symmetry S. The halves 11 and 12 are symmetrical to each other, the

Symmetry relates to the respective outer contours 13 and 14 of the first half 11 and the second half 12, respectively. The textile blank 20 according to FIG rectangular shape. The axis of symmetry S halves the length L of the textile blank 20.

In the first half 11 there is also a gas inlet opening 30

educated. This gas inlet opening 30 can be made from the first half 11

be cut out or punched out. The gas inlet opening 30 is preferably formed centrally in the first half 11 of the textile blank 20.

Four fastening openings 31 are formed around the gas inlet opening 30. The fastening openings 31 are smaller than the gas inlet opening 30. A gas generator (not shown) can be inserted into the gas inlet opening 30. Can be used to attach a gas generator in the gas inlet opening 30

Fastening bolts are inserted into the fastening openings 31. It is also conceivable that the fastening bolts are replaced by fastening screws.

When the fastening bolts / fastening screws are inserted into the fastening openings 31, they can be connected to the textile blank 20. For this it is possible that nuts, for example wing nuts, are used.

The two halves 11 and 12 of the textile blank 20 can be folded along the axis of symmetry S such that the halves 11 and 22 overlap and form at least one folded edge 15.

As shown in FIG. 1b, the first half 11 is folded onto the second half 12 along the axis of symmetry S in the example shown. There is one

Folded edge 15. The halves 11 and 12 are congruently overlapping. This means that there are only slight deviations in the overlapping arrangement. Minor deviations are understood to be deviations in the lower millimeter range.

Both the first half 11 and the second half 12 point

Edge sections on. The edge sections are understood to be the sections which are formed between two corners. The cutting edge of the axis of symmetry S in relation to the outer contour 13 of the first half 11 and in relation to the

The outer contour 14 of the second half 12 is also to be understood as a corner. This corner is formed at the latest when the textile blank 20 is folded. The The first half 11 of the textile blank 20 has a left edge section 21, a right edge section 22 and an upper edge section 23. The second half 12 of the textile blank 20 also has a left edge section 2, a right edge section 22 'and a lower edge section 23'.

In FIG. 1b, due to the overlapping arrangement of the two halves 11 and 12, only the edge sections 21, 22 and 23 of the first half 11 can be seen. Underneath are the edge sections 2, 22 'and 23' of the second half 12. The edge sections 21 and 22 of the first half are with the

Edge sections 2 and 22 'of the second half are connected to one another in such a way that three gas outlet openings 40a, 40b and 40c are formed. The edge sections 21 and 22 of the first half are sewn together with the edge sections 2 and 22 'at least in sections. Alternatively, it is conceivable that this

Edge sections 21 and 22 are glued and / or welded to the edge sections 2 and 22 '.

In the example shown, only two edge sections are connected to one another. The edge sections 23 and 23 'of the first half 11 and the second half 12, which are formed opposite the folded edge 15, are not connected to one another and form the gas outlet opening 40c. The edge sections 23 and 23 'are also formed parallel to the folded edge 15. The areas 24 of the edge sections 21 and 22 of the first half and the areas 24 'of

Edge sections 2 and 22 'of the second half 12 are each laterally on the

Folding edge 15 formed adjacent. These areas 24 and 24 'are not connected to one another and form the gas outlet opening 40a and 40b.

In the folded edge 15 there is neither a gas outlet opening nor one

Gas inlet opening formed.

As illustrated in FIG. 1b, the three gas outlet openings 40a, 40b and 40c are formed with the aid of the folded edge 15 and with only two connecting seams 45.

The connecting seams 45 have a predominantly straight section 46. The connecting seams 45 have an arcuate section 47 towards the gas outlet openings 40a and 40b. 1c shows the textile blank 20 of FIG. La in the folded state. The same explanations apply as have already been listed in connection with FIG. 1b. In Fig. Lc only the connecting seams 45 are designed differently. Starting from the regions 24 and 24 'of the edge sections 21 and 22 or 2 and 22' of the first half 11 and the second half 12, which are not connected to one another, the seams 45 are straight to the edge section 23 of the first half 11 and Edge portion 23 'of the second half 12 out.

 Due to the seams 45, the gas bag element 10 has triangular darts 48, which form both the lower gas outlet opening 40c and the gas outlet openings 40a and 40b formed on the left and right.

It can also be seen from FIGS. 1b and 1c that the axes 41a, 41b and 41c of the gas outlet openings 40a, 40b and 40c form a Y shape. The axes 41a, 41b and 41c run from the center M of the gas inlet opening 30 to the center of the regions 24 and 24 'of the edge sections 21 and 22 or 2 and 22' or centrally to the edge section 23 or 23 '. Angles are formed between the axes 41a, 41b and 41c, respectively. An angle Y of 90 ° is formed between the axes 41a and 41b. Between the axes 41a and 41c or between the axes 41b and 41c, angles β are formed at 135 °. With the help of the gas bag element 10, the gas flows in the arrow directions shown. This also applies in

Connection with the other exemplary embodiments.

A further textile blank 20 is shown in FIG. 2a. This too

Textile blank 20 has a first half 11 and a second half 12, which are formed symmetrically along the axis of symmetry S.

The halves 11 and 12 each have a hexagonal shape, the corners which are cut by the axis of symmetry S also being added to the first half 11 and the second half 12, respectively. The hexagonal shape of the two halves 11 and 12 results from the corners being cut off on the long base side of the trapezoid, the long base side being the edge section 23 and 23 'of the first half 11 and the second half 12, respectively.

The first half 11 of the textile blank accordingly has the edge sections 21, 22 and 23 and the two formed by sections of corners Edge sections 25 and 26. The second half 12 of the textile blank 20 also has the due to the symmetrical design of the halves 11 and 12

Edge sections 2, 22 ', 23', 25 'and 26'.

In Fig. 2b it is shown that the two halves 11 and 12 of the

Textile blank 20 are arranged congruently one above the other. A folded edge 15 is formed. The gas outlet openings 40a, 40b and 40c are formed due to the folded edge 15 and the connecting seams 45. In the example shown in FIG. 2, the edge sections 25 and 26 of the first half are with the

Edge sections 25 'and 26' of the second half 12 are connected, in particular sewn. The edge sections 21 and 22 of the first half 11 and the edge sections 2 and 22 'of the second half 12 are the

Edge sections that adjoin the folded edge 15 laterally. These are not connected to one another and each form the gas outlet opening 40a and 40b.

The edge sections 23 and 23 ', which are formed opposite the folded edge 15, are formed parallel to the folded edge 15 on the one hand. On the other hand, the edge sections 23 and 23 'of the first half 11 and second half 12 are not connected to one another and form the gas outlet opening 40c.

The axes 41a, 41b and 41c of the gas outlet openings 40a, 40b and 40c essentially form a T-shape. Starting from the center M of the gas inlet opening 30, the axes 41a, 41b and 41c each run centrally to the edge sections 21/2, 22/22 'and 23/23' or the regions of the edge sections which form the gas outlet openings 40a, 40b and 40c. In the example shown in FIG. 2b, the axes 41a and 41b run almost perpendicular to the axis 41c. It is approximately in the form of a T's.

3a shows the textile blank 20 of an airbag element 10 according to a third embodiment. With regard to the symmetry of the first half 11 and the second half 12, the same explanations apply as have already been given in connection with FIGS. 1 a - 2 b. The halves 11 and 12 are hexagonal, namely hexagonal on the same side. In other words, the halves 11 and 12 have the shape of an equilateral hexagon. In the first half 11 there are again a gas inlet opening 30 and

Fastening openings 31 are formed. The halves 11 and 12 are mirrored along the axis of symmetry S. Due to a folding along the axis of symmetry S, a folding edge 15 is formed according to FIG. 3b. Because of the hexagonal configuration of the first half 11 and the second half 12, edge sections 21 are again

22, 23, 25 and 26 or 2, 22 ', 23', 25 'and 26'. All edge sections have the same length.

The edge sections 23 and 23 'are in turn not connected to one another, so that the gas outlet opening 40c is formed. The edge sections 21 and 2 or 22 and 22 ', which laterally adjoin the folded edge 15, are likewise not connected to one another and form the gas outlet opening 40a and 40b. The

Edge sections 25 and 25 'of the first half 11 and the second half 12 and the edge sections 26 and 26' of the first half 11 and the second half 12 are connected to one another, in particular sewn together.

According to this embodiment of the invention, the three

Gas outlet openings 40a, 40b and 40c are formed only by a folded edge 15 and by the two connecting seams 45, which are linear. The axes 41a, 41b and 41c of the gas outlet openings 40a, 40b and 40c form the shape of a Y. With regard to the course of the axes 41a, 41b and 41c, it should again be pointed out that starting from the center M of the gas inlet opening 30 in the center to the non-connected edge sections 21 , 2 and 22, 22 'and 23, 23'. Between the axes 41a, 41b and 41c, angles a are again formed, each of which is 120 degrees. With such a trained

Airbag element 10 can flow the gas generated with the aid of a gas generator particularly uniformly into an airbag envelope.

4 is a cross section through an embodiment of a

Airbag unit 50 according to the invention with an arranged therein

Airbag element 10 according to the invention shown. The illustration is exemplary for each of the previously described embodiments of an airbag element.

In this embodiment, the first half 11 of the gas bag element 10, which has the gas inlet opening 30, is by means of at least one rear side Fastening seam 54 is sewn to a textile blank 52 forming the back of the gas bag unit 50 in such a way that the gas inlet opening 30 of the first half 11 and the gas inlet opening 60 overlap in the rear 52. In the installed state shown, the gas generator 55 can thus use its gas

Allow gas outlet openings 55a to flow directly into the interior of the gas bag element 10.

Furthermore, here the second half 12 of the gas bag element 10 is sewn by means of at least one front fastening seam 56 to the textile blank 51 forming the front of the gas bag unit 50. In this way, the airbag element 10 forms a tether unit, via which the distance between

Front 51 and back 52 of the airbag unit 50 can be adjusted by adjusting the dimensions (L, B) or the respective edge length (K) of the textile blank 20 of the airbag element 10.

Alternatively, an embodiment is also conceivable in which the

Airbag element is only connected to the rear side 52 of the airbag unit 50.

It is also conceivable to reinforce or replace the folded edge 15 with a seam 45.

Reference list

10 gas bag element

 11 first half

 12 second half

 13 outer contour first half

 14 outer contour second half

 15 folded edge

20 textile cutting

 21, 21 'edge section first or second half

 22, 22 'edge section first or second half

 23, 23 'edge section first or second half

 24, 24 'area edge section first and second half

 25, 25 'edge section first or second half

 26, 26 'edge section first or second half

 30 gas inlet opening

 31 mounting hole

 40a, 40b, 40c gas outlet openings of the gas bag element

41a, 41b, 41c axis gas outlet opening

 45 connecting seam

 46 straight section

 47 arcuate section

 48 darts

 50 airbag unit

 51 textile blank forming a front of the gas bag unit

52 textile blank forming a rear side of the gas bag unit

53 (circumferential) seam

 54 fastening seam on the back

 55 gas generator

55a gas outlet openings of the gas generator

 56 front fastening seam

60 Gas inlet opening in the gas bag unit L, B length, width of the textile blank

K edge length of the textile blank

M center of gas inlet opening

S axis of symmetry

 Angle between axes of the gas outlet opening ß Angle between axes of the gas outlet opening

Y Angle between axes of the gas outlet opening

Claims

Expectations

1. Airbag element (10) consisting of a textile blank (20) which has two substantially symmetrical halves (11, 12), the

 Textile blank (20) is folded so that the halves (11, 12) overlap and at least one folded edge (15) is formed,

 That means that

 Edge sections (21, 21 '; 22, 22'; 25, 25 '; 26, 26') of the halves (11, 12) are connected to one another at least in sections such that at least three gas outlet openings (40a, 40b, 40c) are formed.

2. Airbag element (10) according to claim 1,

 That means that

 the halves (11, 12) overlap substantially congruently, and / or that

 A gas inlet opening (30) is formed in one of the halves (11, 12), in particular in the middle of one half (11, 12).

3. Airbag element (10) according to one of the preceding claims,

 That means that

 Edge sections (21, 22, 25, 26) of a first half (11) are connected at least in sections to edge sections (2, 22 ', 25', 26 ') of a second half (12), in particular are glued, sewn and / or welded , whereby, preferably,

 at most two edge sections (21, 22, 25, 26) of a first half (11) are connected to at most two edge sections (2, 22 ', 25', 26 ') of a second half (12), preferably in a straight line.

4. Airbag element (10) according to one of the preceding claims,

 That means that

 the halves (11, 12) are each rectangular, in particular square, or hexagonal, in particular equilateral hexagonal, and / or are characterized by the fact that

the folded edge (15) is free of gas outlet openings (40a, 40b, 40c) and / or gas inlet openings (30).

5. Airbag element (10) according to one of the preceding claims,

 That means that

 Edge sections (23, 23 ') opposite the folded edge (15)

 are trained, are not connected and one

 Form gas outlet opening (40c), and / or

 That means that

 Edge sections (23, 23 ') opposite the folded edge (15)

 are formed, are formed parallel to the folded edge (15).

6. Airbag element (10) according to one of the preceding claims,

 That means that

 Edge sections (21, 2; 22, 22 ') or regions (24, 24') of the edge sections (21, 2; 22, 22 ') which laterally adjoin the folded edge (15) are without mutual connection and each have a gas outlet opening (40a, 40b) form, and / or

 That means that

 the axes (41a, 41b, 41c) of three formed gas outlet openings (40a, 40b, 40c) form a T-shape or a Y-shape.

7. Airbag unit, comprising an airbag cover (50, 51, 52), one

 Gas generator (55) and an airbag element (10) according to one of the

 preceding claims, wherein the gas bag element (10) with the

 The gas bag cover (50) is connected, in particular sewn and / or welded and / or glued, since you have not known that the gas bag element (10) within the gas bag cover (50) forms a gas distributor for gas originating from the gas generator (55) , and or

 That means that

 the airbag element (10) forms a tether unit of the airbag unit, wherein, preferably, the half (11) having a gas inlet opening (30) is connected to a textile blank (52) forming a rear side of the airbag unit, and / or wherein, preferably, one half (12) free of openings is connected to a textile blank (51) forming a front of the gas bag unit.

8. Vehicle occupant safety system, with an airbag unit according to claim 7 and at least one sensor for detecting vehicle status data and an activation unit, which is designed to send a trigger signal as a function of the detected vehicle movement data to the gas bag module.

9. A method for producing an airbag element, in particular one

 Airbag element (10) according to one of claims 1 to 6, wherein the

 Method has the following steps:

 a) providing a textile blank (20) which has two essentially symmetrical halves (11, 12),

 b) folding the textile blank (20) such that the halves (11, 12)

 overlap and form at least one folded edge (15),

 c) connecting edge sections (21, 2; 22, 22 '; 25, 25'; 26, 26 ') of the halves (11, 12) such that at least three gas outlet openings (40a, 40b, 40c) are formed.

10. The method according to claim 9,

 d a d u r c h g e k e n n z e i c h n e t that

 two edge sections (21, 22, 25, 26) of a first half (11) with two edge sections (2, 22 ', 25', 26 ') of a second half (12) are sewn together and / or glued and / or welded together in this way that at least three gas outlet openings (40a, 40b, 40c) are formed.