DE102007001640A1 - Electrical ignition unit manufacturing method for e.g. airbag, involves granulating glass, pressing granulate to ring form, inserting pellet in metal ring hole, and subjecting filling to heat treatment in inserted condition with metal ring - Google Patents

Abstract

The method involves manufacturing a glass filling (2.2) by milling glass. The milled glass is granulated to a particle size from 10 to 300 microns. The granulate is pressed to a ring form, and a pellet is sintered, where the sintering takes place during temperature between 500 and 900 degree centigrade. The sintered pellet is inserted into a borehole (2.4) of a metal ring (2.1), which has a thickness of 2 to 10 micrometer. The glass filling is subjected to the thermal treatment in an inserted condition with the metal ring.

Description

The invention relates to the field of ignition units, as well as these are used for example for airbags or for belt tensioners in motor vehicles. On US 6,274,252 . US 5,621,183 or US 5,504,263 will be referred.

A such ignition unit has at least one electrically conductive Pin, and a pin carrier comprising a metal ring, having a bore for receiving the pin. The hole has excess relative to the pin, leaving an annulus remains between the pin and the soffit of the bore. The annulus is filled with an insulating filling, For example, glass, plastic, ceramic or glass ceramic. He follows the insulating filling with glass, so this is with the Metal of the metal ring to fuse vacuum-tight. That to melt down Glass used is generally prefabricated and sintered.

The Ignition unit includes a fuse bridge. The Ignition bridge provides an electrically conductive connection between the pin or pins on the one hand and the On the other hand, a metal ring.

Of the Pen bearer carries in addition to the pen In general, a cap in the interior of which the fuel located.

At Ignition units of the type mentioned are numerous requirements posed. It is essential that the ignition unit functions performs properly, namely reliable and to ignite in a timely manner, that means in the right way Moment, and not too late. Even unwanted ignitions can have serious consequences.

It must continue to be ensured that the electric Lead not by local high resistances deterioration, for example, due to corrosion of the involved Components. In this context, a long service life is desirable. Furthermore, the insulating filling with glass has the ignition pressure resist; she must not get out of her due to the ignition Seat are pushed out.

at Ignition units are mass-produced items sold in largest quantities are produced. According to the manufacturing, including the Assembly, cost-effective.

An important requirement is the closed structure of the glass ring. The bubbles or cavities present in the glass should be very small. Ideally, they should be below 40 microns. See for example US 5,404,263 , there column 3, lines 3 to 5.

Of the Invention is based on the object, an electric ignition unit of the type mentioned in such a way that it meets the requirements mentioned. In particular, a method is to be specified with which the size of the bubbles and cavities in the Minimize glass ring with minimal manufacturing effort.

These Task is characterized by the characterizing features of independent Claims solved.

The the first essential measure of the invention is the glass ring by crushing, painting, granulating pressing and sintering to produce, instead of as hitherto by the cutting of a Glass tube.

At the Sintering burns glass organic substances. hereby the viscosity of the glass is reduced. At the same time receives the compact thereby the mechanical strength, which for the further process flow is necessary.

A Another advantageous measure is the bore of the metal ring to make it to that of the bridge rejuvenated on the opposite side, be it in the shape of one continuous conical profile, or a stepped profile.

The The first measure leads to a substantial Cheapening the manufacturing process. The costs can be passed through the measure according to the invention to a Lower fraction. It also leads to one Lower the bubble diameter to less than 40 microns.

The second measure is likely to reinforce the impact of the first measure. This achieves the following effect:
The glass ring has seen in the direction of its longitudinal axis different outer diameter. It is relatively large in the region of the electrically conductive bridge, with which the radial extent or the length of the bridge is relatively large. This means that the path which an electrical charge would have to take through the insulating glass ring is large, especially in the bridge area. This minimizes the risk of a charge overflow from the pin to the metal ring, especially in the highly sensitive bridge area.

The said tapering of the glass ring towards the end remote from the bridge means the following: When igniting, a considerable pressure, which can reach 3000 bar, acts on the end face of the glass ring close to the bridge. This pressure tends to push the glass ring out of the bore of the metal ring. This tendency is counteracted by the genre rejuvenation. The rejuvenation can be one be conical. It can also be stepped, or conical and stepped at the same time.

The The invention is explained in more detail with reference to the drawing. The following is shown in detail:

1 shows the essential components of an ignition unit in the installed state.

2 . 3 and 4 show metal rings with different bore profiles.

First, the ignition unit according to 1 to be discribed.

As you can see, the ignition unit comprises a single metal pin 1 , It could also be provided two metal pins. The metal pin 1 is from a pencil carrier 2 carried. The pin carrier essentially consists of a metal ring 2.1 , The metal ring has a hole 2.4 on. This one has opposite the pin 1 Oversize, leaving an annular space between pin 1 and bore 2.3 remains.

The annular space contains a glass filling 2.2 , The glass filling generally fills the gap mentioned completely. However, this is not essential. The filling can, as mentioned above, also consist of other insulating materials, such as plastic or ceramic.

The pencil carrier 2 is, as you can see, essentially cylindrical in shape.

pen 1 and metal ring 2.1 are through an electrically conductive bridge 2.3 connected with each other. A semiconductor bridge can also be used.

To one end of the pen carrier 2 is a cap 3 connected. This contains a fuel 4 (Ignition means). As you can see, the metal ring points 2.1 a paragraph on which the free end of the cap 3 is deferred. The connection between metal ring 2.1 and cap 3 is designed as a sliding or clamping seat, so that the cap 3 without further fixation by a certain tension with the metal ring 2.1 is firmly connected. The cap is usually welded to the metal ring.

Another essential component is a plug 5 , This is in the present case also of approximately cylindrical shape. The longitudinal axes of pin carrier 2 and plugs 5 aligned with each other.

The metal ring 2.1 has a circumferential collar 2.1.1 on. plug 5 is constructed from a basic body 5.1 and a sleeve 5.2 , The sleeve 5.2 has at its free end on a recess which also rotates, and their contour at least approximately the federal government 2.1.1 equivalent. The two elements metal ring 2.1 and plugs 5 are due to the encircling federal 2.1.1 and the indentation connected in the manner of a snap closure.

Instead of said sleeve, which as such has a closed circular cross-section, could also be several legs to the body 5.1 be connected, for example, over the circumference of the base plug 5 equally distributed.

Also, instead of the snap connection shown here, a plug connection could be provided. Here, the plug again has a base body and a sleeve, and the metal ring 2.1 a corresponding recess for insertion of the free end of the sleeve. The dimensions of the free end of the sleeve and the recess in the metal ring could be dimensioned such that wedging between the metal ring 2.1 and plugs 5 comes about.

As you can see, metal pin protrudes 1 over the front side of the pin carrier 2 addition, the cap 3 opposite. The free end of the metal pin 1 is in a hole or in a plug sleeve in the body 5.1 of the plug. The lateral surface of the plug 1 is in the mentioned hole or in the connector sleeve fed and makes a good electrically conductive connection between these two parts.

The hole is slightly conical. She tapers from her bridge 2.3 near end to its bridge far end. Other ways of profiling the hole are from the 2 . 3 and 4 recognizable.

Due to the conicity of the bore 2.4 is of course the ring-shaped glass filling 2.2 conical. The cone has in the area of the bridge 2.3 its largest diameter, and in the far end of the bridge its smallest diameter. The distance that an electric charge - unintentionally - would have to travel in the area close to the bridge; is therefore relatively large, which has a safe work according to the ignition unit. The small diameter of the glass filling 2.2 causes a sudden pressure, which is applied to the glass filling when igniting from above, over the conical soffit of the bore 2.4 on the metal ring 2.1 transferred and thus collected, so that the glass filling 2.2 not knocked out.

Both 2 . 3 and 4 are made Reasons of greater clarity of the metal pin 1 as well as the bridge 2.3 omitted. The contours of the holes 2.4 are easily recognizable.

In the embodiment according to 2 points the metal ring 2.1 a conical bore 2.4 on. The bridge, not shown here, is located in the area of the large diameter. The cone angle only needs to be a few degrees. He will generally be between 10 and 40 degrees. The large diameter in the area of the bridge is generally between 2 and 5 mm.

The thickness d of the metal ring 2.1 is 2 to 10 mm. The hole 2.4 is made by turning.

In the embodiment according to 3 has the hole 2.4 a step-shaped course. Here, two stages are provided. Also, a single stage could be provided.

In the embodiment according to 4 has the hole 2.4 a contour of an egg timer on. This means that the smallest diameter is not necessarily at the bridge far end of the hole 2.4 must lie, but can also lie between the two ends.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• US 6274252 [0001]
• US 5621183 [0001]
• US 5504263 [0001]
• US 5404263 [0008]

Claims (11)

Method for producing an electrical ignition unit for igniting a fuel with at least one electrically conductive pin ( 1 ), further with a pen carrier ( 2 ) comprising a metal ring ( 2.1 ) with a bore ( 2.4 ), the pen ( 1 ) while leaving an annular space encloses, and with a ring space filling the glass ring ( 2.2 ); arranged on one side of the metal ring ( 2.1 ), with the following process steps: 1.1 the metal ring ( 2.1 ) and the pen ( 1 ) provided; 1.2 for making the glass ring ( 2.2 ), proceed as follows: 1.2.1 grind glass; 1.2.2 the ground glass is granulated to a particle size of 10 to 300 microns; 1.2.3 the granules are pressed into the ring mold; 1.2.4 the compact is sintered; 1.2.5 the sintered compact is placed in the bore ( 2.4 ) of the metal ring ( 2.1 ) used; 1.2.6 the glass ring ( 2.2 ) in the inserted state together with the metal ring ( 2.1 ) subjected to a heat treatment. Method according to claim 1, characterized in that the metal ring ( 2.1 ) is made by turning. Method according to claim 1 or 2, characterized that sintering at a temperature of between 500 and 900 ° C is carried out. Electric ignition unit for igniting a fuel; 4.1 with at least one electrically conductive pin ( 1 ); 4.2 with a pen carrier ( 2 ) comprising a metal ring ( 2.1 ) with a bore ( 2.4 ), the pen ( 1 ) enclosing an annulus encloses; 4.3 with an annular ring filling insulating glass ring ( 2.2 ); 4.4 the glass ring ( 2.1 ) by grinding a gob, granulating the gob to a particle size of 10 to 300 microns, pressing into the ring mold and sintering the glass ring ( 2.2 ) produced. Electric ignition unit according to claim 4, characterized in that the metal ring has a thickness of 2 to 10 mm. Electric ignition unit according to claim 4 or 5, characterized in that the bore of the metal ring ( 2.1 ) tapers to its bridge far end. Electric ignition unit according to one of claims 4 to 6, characterized in that the bore ( 2.4 ) has a conical profile. Electric ignition unit according to one of claims 4 to 7, characterized in that the bore ( 2.4 ) has a step-shaped profile. Electric ignition unit according to one of claims 1 to 3, characterized in that the length of the bridge ( 2.3 ) is between 2 and 5 mm. Electric ignition unit according to one of claims 4 to 9, characterized in that the metal ring ( 2.3 ) is a rotating part. Electric ignition unit according to one of Claims 5 to 10, characterized in that the glass ring is constructed of two or more individual parts.