GAS GENERATOR

Abstract

A gas generator includes at least two functional subassemblies and at least two retention parts. The functional subassemblies each have an axis defining an axial direction and at least one outer dimension in a plane normal to the axial direction. The retention parts are each radially crimped for retaining one of the at least two functional subassemblies on the gas generator. The at least two retention parts are formed on the same part of the gas generator and the at least two functional subassemblies are positioned on the gas generator with a centre distance of axes less than or equal to 1.5 times this outer dimension and that each retention part is radially crimped over at least 90% of its periphery.

Claims

1. Gas generator comprising: at least two functional subassemblies, each with an axis; at least two housings, each housing designed to receive a corresponding one of the at least two functional subassemblies; at least two retention parts, each retention part crimped radially for retaining a corresponding one of these at least two functional subassemblies on the gas generator, wherein each of the at least two housings comprises a section transversal to the axis of the functional subassembly received with a characteristic dimension such as an inside diameter, and wherein the at least two functional subassemblies are positioned on the gas generator with a centre distance of axes lower than or equal to 4 times one half of the sum of the characteristic dimensions and that each retention part is crimped radially on at least 90% of its periphery.

2. The gas generator according to the claim 1, wherein the axes of each of the at least two functional subassemblies are coplanar.

3. The gas generator according to claim 1, wherein the axes of each of the at least two functional subassemblies are parallel.

4. The gas generator according to claim 1, wherein the functional subassemblies are ignition subassemblies.

5. The gas generator according to claim 1, wherein the retention parts are each formed by a collar and in which each of the functional subassemblies comprises a groove at the level of which each collar is radially clamped.

6. The gas generator according to claim 1, wherein the retention parts each comprise a radially crimped zone, which crimped zones are contained in the same plane.

7. The gas generator according to claim 1, in combination with a safety module.

8. The safety module according to claim 1.

9. A crimping tool radially designed to radially crimp at least two functional subassemblies of a gas generator according to claim 1, the crimping tool comprising a plurality of jaws and designed to crimp in a single crimping operation at least 90% of the periphery of each retention part.

10. The radial crimping tool according to claim 9, wherein at least one jaw comprises an impression part for crimping each of these at least two retention parts.

11. The radial crimping tool according to claim 9, wherein at least one jaw comprises an impression part for crimping each of these at least two retention parts and is designed to move in the plane normal to the axial direction of the functional subassemblies along a direction normal to a straight line passing through the axes ((aa), (bb)) of each of the functional subassemblies during the crimping operation.

12. The radial crimping tool according to claim 11, wherein the at least one jaw comprises a crimping impression part for each of these at least two retention parts and has in the plane normal to the axial direction of the functional subassemblies at least one axis of symmetry which passes between the axes ((aa), (bb)) of each of the functional subassemblies.

13. The radial crimping tool according to claim 9, wherein each of the jaws is designed to move during the course of the crimping operation along a direction comprised in the plane normal to the axial direction of the functional subassemblies.

14. The radial crimping tool according to claim 9, wherein a direction of movement of at least one part of the jaws does not pass through one of the axes of each of the functional subassemblies.

15. The radial crimping tool according to claim 9, wherein a direction of movement of each of the jaws passes through an axis arranged between the axes of each of these at least two functional subassemblies, and preferably arranged at the same distance from the axes of each of these at least two functional subassemblies.

Description

[0033] Other characteristics and advantages of the present invention will appear more clearly from a reading of the detailed following description of an embodiment of the invention given by way of non-limiting example and illustrated by the attached drawings in which:

[0034] FIG. 1 shows a section of a gas generator according to the invention comprising two ignition subassemblies;

[0035] FIG. 2 shows a radial crimping tool designed to perform a simultaneous radial crimping on each of the ignition subassemblies of the gas generator of FIG. 1.

[0036] FIG. 1 shows a section of a gas generator comprising two ignition subassemblies 10a and 10b, each mounted in a housing of the gas diffuser and crimped on a gas diffuser 50 and each comprising an axis (aa) and (bb) respectively.

[0037] The gas generator comprises two gas reserves 30a and 30b arranged on each side of the gas diffuser 50. It is possible to envisage keeping these components together by welding, for example. The gas diffuser 50 defines a diffusion chamber 40 which is designed to receive information gases from the part of the two gas reserves 30a and 30b and then defuse these gases toward a safety member such as an airbag, for example, in order to ensure the safety of the occupants of an automobile. For example, the gas reserves 30a and 30b can contain pressurized gas and it is possible to envision storing different gases in each gas reserve 30a and 30b in such a manner as to make them react once they are discharged.

[0038] The two ignition subassemblies 10a and 10b typically control the functioning of the gas generator by bringing about the opening of the gas reserves 30a and 30b with the aid of a mechanism housed in the diffusion chamber 40 and which is not shown in order to simplify FIG. 1. For example, each of the two ignition subassemblies 10a and 10b can comprise a pyrotechnical igniter provided with two connection pins which can be released with an electrical impulse generated by a deceleration sensor when it detects conditions indicative of a vehicle accident. The connection pins are substantially parallel to the axes (aa) and (bb) of their respective subassembly.

[0039] The gas diffuser 50 comprises two collars 20a and 20b, each of which receives one of the two ignition subassemblies 10a and 10b respectively. Each collar 20a and 20b is radially crimped for retaining the two ignition subassemblies 10a and 10b on the gas generator and is adjacent to the housing (a bore here) which receives the ignition subassembly 10a or 10b.

[0040] The arrows at the level of the crimping of the collars 20a and 20b represent the direction of movement of the material of the collars 20a and 20b which was pushed back by a tool in the groove of each of the two ignition subassemblies 10a and 10b. A crimping with such a direction of movement of the tool (typically a plurality of jaws) is called radial crimping because if the axis (aa) or (bb) is taken as reference the direction of the movement of the crimping jaws is comprised in a plane normal to the axes (aa) and (bb).

[0041] As FIG. 1 shows, the ignition subassemblies 10a and 10b are close to one another. In particular, their centre distance of axes (e) is less than or equal to 1.5 times the diameter of their housing. For example, each housing of the gas diffuser 50 has a diameter of 15.8 millimetres and the centre distance of axes of the ignition subassemblies 10a and 10b is 20 millimetres, which is approximately 1.27 times one half of the sum of the diameters of the two housings. However, the invention proposes in such a geometrical context crimping the two ignition subassemblies 10a and 10b radially and over the entire periphery (at least 90%) of the two collars 20a and 20b.

[0042] To this end the invention proposes using a radial crimping tool shown in FIG. 2. Such a tool is composed by a plurality of crimping jaws 101, 102, 103, . . . intended to be mounted on a hydraulic crimping machine, for example.

[0043] FIG. 2 is a view of the tool in a plane normal to the axes (aa) and (bb) and the crimping tool has a circular outer shape having as its centre the intersection of an axis (xx) and an axis (yy) which form a reference point in this plane normal to the axes (aa) and (bb). The axes (aa) and (bb) are localized at the intersections of the axis (xx) respectively with an axis (mm) and an axis (nn).

[0044] The crimping tool comprises two axes of symmetry: the axis (xx) and the axis (yy), so the not-shown crimping jaws are each symmetrical with one of the shown jaws 101, 202 or 103. Finally, the axes (mm) and (nn) are symmetrical relative to the axis (yy), which means that the axes (aa) and (bb) are equidistant relative to the axis (yy), or also symmetrical relative to a plane normal to the FIG. 2 and passing through the axis (yy).

[0045] Each of the jaws 101, 102, 103 is mobile relative to the other ones and can be moved along a direction of movement which is represented by an arrow on each jaw 101, 102, 103, . . . . It should be noted that each of the directions of movement of the jaws passes through the intersection of the axes (xx) and (yy) and that some of the jaws (the jaws 101, 102 and the elements symmetrical to them in particular) have directions of movement which do not pass through the axes (aa) and (bb) of the two ignition subassemblies 10a and 10b respectively.

[0046] FIG. 2 is a top view onto the crimping tool, but it should be noted that according to a preferred embodiment the crimping impressions, which are the peripheral zones of each jaw which will crimp the retention parts of the gas generator, are all situated in the same plane, parallel to the plane of FIG. 2.

[0047] Finally, the jaw 101 and the element symmetrical to it relative to the axis (xx) both have a plane of symmetry which is the plane normal to the FIG. 2 in which contains the axis (yy). It is important to also note that these two jaws each comprise an impression for crimping each retention part, the collars 20a and 20b. In other words, each of these two jaws is arranged to crimp a part of each collar 20a and 20b. To this end each jaw comprises a point which engages between the collars 20a and 20b during the crimping in order to deform them even in the zone which is difficult to access between the collars 20a and 20b.

[0048] It should also be noted that there is in FIG. 2 a space between each jaw 101, 102, 103, . . . and it should be noted that this space will be reduced during the crimping but without the jaws necessarily touching each other at the end of the crimping course. However, even the material zone facing the inter-jaw space at the end of the crimping is forced to plastically deform, in particular on account of the difference of diameter between the groove bottom at the end of crimping and the initial diameter of the collars 20a and 20b.

[0049] It is understood that various modifications and/or improvements evident to a person skilled in the art can be added to the different embodiments of the invention described in the present description without departing from the scope of the invention defined by the attached claims.