WO2001001061A1

WO2001001061A1 - Ignition unit with an integrated electronic system

Info

Publication number: WO2001001061A1
Application number: PCT/EP2000/004952
Authority: WO
Inventors: Thomas Lehnst; Uwe Brede; Anton Bretfeld; Gerhard Kordel; Hans-Joachim Nitschke
Original assignee: Dynamit Nobel Gmbh Explosivstoff- Und Systemtechnik; Volkswagen Ag
Priority date: 1999-06-25
Filing date: 2000-05-31
Publication date: 2001-01-04

Abstract

The invention relates to an ignition unit which releases a retaining means in a motor vehicle by means of a pyrotechnic active element, comprising an ignition bridge with a pyrotechnic charge (9), a receiving element for electronic components (3) such as control and signal processing elements, and connection pins (7) for connecting electronic components (3). In order to improve tightness and to simplify manufacturing, the invention provides for the following: the receiving component is a ceramic plate (1); the ignition bridge element is configured as an ignition bridge resistor (4) disposed on said ceramic plate (1); the ceramic plate (1) protrudes through a metal ring (6) via a seal (5) and has an active side (12), when seen from the metal ring (6), and a control side (13); essentially, only the ignition bridge resistor (4) is arranged on the active side (12) while the electronic components (3) and the connection pins (7) are arranged on the control side; the active side (12) is fully enclosed by a metal envelope (10) which is joined to the metal ring (6) in a gastight manner.

Description

Ignition unit with integrated electronics

The invention relates to an ignition unit for triggering a restraint in a motor vehicle with a pyrotechnic active part, consisting of an ignition bridge element and a pyrotechnic set, a receiving part for electronic components, such as control and signal processing elements, and connecting pins for controlling the electronic components.

From DE 196 10 799 C1 an ignition device for triggering a restraint in a motor vehicle with an ignition circuit is known. The ignition circuit with the electronic components, such as control and signal processing elements, are located on a three-dimensional carrier. Ignition pins protrude from this carrier on the one hand, which are connected via an ignition wire as the ignition bridge element and pins for the connection of a plug. A pyrotechnic active part is placed on the three-dimensional carrier.

A disadvantage of this ignition unit is the lack of tightness, at least for the active part with its pyrotechnic components. In addition, this igniter is difficult to manufacture.

The invention has for its object to improve an ignition unit according to the preamble of claim 1 with respect to the tightness and to simplify the manufacture.

According to the invention this object is achieved in that

- the receiving part is a ceramic board, the ignition bridge element is a ignition bridge resistor arranged on the ceramic circuit board,

the ceramic circuit board protrudes through a metal ring via a seal and, seen from the metal ring, has an active side and a control side,

- On the active side essentially only the ignition bridge resistance and on the control side the electronic components and the connecting pins are arranged

and

- The active side is completely enclosed by a metal sleeve which is connected gas-tight to the metal ring.

Advantages of the ignition unit according to the invention include:

1. The area in which the pyrotechnics are located is hermetically sealed.

2. No significant mechanical stress in the area in which the electronic components are located.

3. A single carrier board for ignition bridge and electronic components

4. Ignition unit can be controlled from the outside

5. Compact unit

In a preferred embodiment, the ignition bridge resistor is a thin film by z. B. sputtering technology applied to the ceramic circuit board at the end of the rule ^- -

Ceramic board on one of the broad sides. However, it may also be advantageous to arrange the ignition bridge resistor on the end face of the ceramic board.

As a material for the ceramic patio z. B. alumina and its alloys.

In order to achieve a particularly good seal, the seal expediently consists of a melted glass. However, any other suitable seal can also be used.

In a preferred embodiment, the metal ring is made of steel and the metal sleeve is made of stainless steel, the metal sleeve advantageously being laser-welded to the metal ring.

The pins are conveniently attached directly to the ceramic board.

In a preferred embodiment, the interior of the metal sleeve is filled with a plastic sheathing or extrusion coating which leaves the area around the ignition bridge resistor free and contains a loading bore for receiving the pyrotechnic set.

Likewise, the control side is advantageously completely provided with a plastic encapsulation or covering.

Advantageously, two firing bridge resistors are arranged on the ceramic circuit board to generate redundancy, e.g. B. on each broadside an ignition bridge resistor.

Further features of the invention emerge from the figures, which are described below. It shows: 1 shows a section through an ignition unit according to the invention,

Fig. 2: a schematic view of the metal ring with inserted ceramic board with the ignition bridge resistor, the electronic components and the connecting pins, and

3: a view of a ignition bridge resistor arranged on the end face of the ceramic circuit board.

FIG. 1 shows in section an ignition unit according to the invention for triggering a restraint, in particular an airbag, in a motor vehicle.

The ignition unit consists of a ceramic circuit board 1 made of aluminum oxide on which electronic components 3 and an ignition bridge resistor 4 are arranged. These are connected to each other via conductor tracks. The ceramic circuit board 1 is embedded in a metal ring 6 or extends through it. The tightness is achieved via a seal 5 between the metal ring 6 and the ceramic circuit board 1.

The metal ring 6 separates the ceramic circuit board 1 into an active side 12 and a control side 13. On the active side 12 of the ceramic circuit board 1, essentially only the ignition bridge resistor 4 is arranged next to the conductor tracks. This is a thin film z. B. applied by sputtering technology. The electronic components 3 and connecting pins 7 are arranged on the control side 13 of the ceramic circuit board 1.

Ignition bridge resistor 4, components 3 and connecting pins 7 are connected to one another by corresponding electrical conductor tracks, conductor tracks also leading from the ignition bridge resistor 4 through the seal 5 to the components 3. The metal ring 6 is made of steel.

A suitable plastic sheathing / encapsulation 8a, 8b in such a way that the area in which the ignition bridge resistor 4 is located remains free, a loading hole is created which serves to accommodate a pyrotechnic set 9. This is in thermal contact with the ignition bridge resistor 4. Via a metal sleeve 10, preferably made of stainless steel, which is laser welded 11 to the steel ring 6 all around, the active side 12, in which the pyrotechnic set 9 is located, is hermetically sealed. The encapsulation / sheathing 8a, 8b is designed so that in addition the area of the ceramic circuit board 1 on which the electronic components 3 are located, i. H. the control side 13 is covered with. The shape of this sheathing / encapsulation 8b is generally a customer-specific design and at the same time serves as protection for the connecting pins 7. This defines the final form of the ignition. The complete ignition unit can be electrically controlled on the input side via the connecting pins 7 leading to the outside. The pyrotechnic set 9 is used for intended control signals that are applied to the pins 7 for the purpose of igniting z. B. airbag systems activated via the ignition bridge resistor 4. Thereupon the predetermined breaking point 14 bursts and the firing vapors reach their intended use.

2 shows a schematic view of the metal ring 6 with the ceramic board 1 inserted. On the active side 12 of the ceramic board 1, only the ignition bridge resistor 4 is arranged in addition to the conductor tracks 2. The electronic components 3 are accommodated on the control side 13 of the ceramic circuit board 1. These are used for control and signal processing. Terminal pins 7, which are tightly attached to the ceramic circuit board 1, are connected to the conductor tracks 2 and are used for control from the outside.

Another arrangement of the ignition bridge resistor 4 is shown in FIG. 3. The ignition bridge resistor 4 is here in contrast to that in FIGS. 1 and 2 shown embodiment on the front side of the ceramic board 1 and is connected via conductor tracks 2 to the electronic components 3 (see FIG. 2).

Claims

claims

1. Ignition unit for triggering a restraint in a motor vehicle with a pyrotechnic active part, consisting of an ignition bridge element with a pyrotechnic set (9), a receiving part for electronic components (3), such as control and signal processing elements, and connecting pins (7)

Control of the electronic components (3), characterized in that

- The receiving part is a ceramic board (1),

- the ignition bridge element is a ignition bridge resistor (4) arranged on the ceramic circuit board (1),

- The ceramic circuit board (1) projects through a metal ring (6) via a seal (5) and, seen from the metal ring (6), has an active side (12) and a control side (13),

- On the active side (12) essentially only the ignition bridge resistor (4) and on the control side (13) the electronic components (3) and the connecting pins (7) are arranged and

- The active side (12) is completely enclosed by a metal sleeve (10) which is connected to the metal ring (6) in a gas-tight manner.

2. Ignition unit according to claim 1, characterized in that the ignition bridge resistor (4) as a thin film by z. B. sputtering technology is applied to the ceramic circuit board (1).

3. Ignition unit according to claim 1 or 2, characterized in that the ignition bridge resistor (4) is arranged on the end face of the ceramic board (1).

4. Ignition unit according to one of claims 1 to 3, characterized in that the seal (5) is a glass melt.

5. Ignition unit according to one of claims 1 to 4, characterized in that the metal ring (6) consists of steel.

6. Ignition unit according to one of claims 1 to 5, characterized in that the metal sleeve (10) consists of stainless steel.

7. Ignition unit mach one of claims 1 to 6, characterized in that the metal sleeve (10) with the metal ring (6) is laser welded.

8. Ignition unit according to one of claims 1 to 7, characterized in that the connecting pins (7) are attached directly to the ceramic board (1).

9. Ignition unit according to one of claims 1 to 8, characterized in that the inside of the metal sleeve (10) with a plastic covering or

Injection molding (8a) is filled, which leaves the area around the ignition bridge resistor (4) free and contains a loading hole for receiving the pyrotechnic set (9).

10. Ignition unit according to one of claims 1 to 9, characterized in that the control side (13) completely with a plastic extrusion coating or

Envelope (8a) is provided.

1. Ignition unit according to one of the preceding claims, characterized in that two ignition bridge resistors (4) are arranged on the ceramic circuit board (1) in order to generate redundancy.