DE60307773T2 - Ignition device for gas generator - Google Patents

Description

[Technical field of Invention]

The The present invention relates to an ignition device which is suitable is into a gas generator for an airbag system or a seatbelt pretensioner or the like installed and the gas generator having the igniter.

[Description of the affected State of the art]

One Airbag system which attaches to a high-speed mobile body e.g. a vehicle is designed, a bag-shaped airbag from a gas generator, which is called an inflator, inflate. The gas generator has a gas generating agent and an ignition device for initiating a gas generating reaction of the gas generating agent. traditionally, includes the ignition device Reactant and a fiber (bridgewire) as a resistance heat generating An element for initiating a reaction of the reactant on (e.g. U.S. Patent No. 5,404,263).

An example of the ignition device of the related art is used in conjunction with 8th described.

An ignition device 10 has a substantially cup-shaped housing 12 which is open at the back (the floor in 8th ). A reagent 14 is in the case 12 accommodated. The rear part of the housing 12 is with an insulating material 16 closed, which is formed of sintered glass or the like. Ends of a pair of electrodes 18 . 20 caused by the insulating material 16 are lost, are in the housing 12 exposed.

A thread 22 extends between the ends of the electrodes 18 . 20 , The two ends of the thread 22 are at the surfaces of the ends of the respective electrodes 18 . 20 welded. The string 22 is in contact with the reagent 14 in the case 12 ,

The electrodes 18 . 20 and the case 12 are spaced from each other so as not to be brought into electrical contact.

In the ignition device constructed in this way 10 is one of the electrodes 18 with a positive pole of a battery 26 a motor vehicle via a control circuit 24 connected to a voltage boosting circuit or the like and the other electrode 20 is connected to a vehicle body of the motor vehicle (earth connection). The negative pole of the battery 26 is connected to the vehicle body of the motor vehicle.

In an emergency such as a vehicle collision or the like, a switching element becomes in the control circuit 24 turned on and a tension is the thread 22 from the battery 26 fed. Accordingly, the thread generates 22 Heat and the reagent 14 is ignited and initiates a reaction. The reaction of the reagent 14 generates high pressure gas or heat, whereby the gas generating agent in the gas generator causes a gas generating reaction.

The reactant used herein has a first reactant, which is a mixture of lead styphnate and aluminum powder, which is arranged around the filament 22 and a second reactant formed of BKNO ₃ or a blasting powder arranged to surround the first reactant. Such an ignition device is in the document DE 102 113 48 , which forms a basis for the preamble of claim 1 described. The first reactant reacts quickly exothermally, and the second reactant initiates a reaction due to absorption of heat from the first reactant, thereby producing high pressure and high temperature gas and minute particles.

Now reference is made to 9 an example of the gas generator, which with the ignition device 10 is provided to be described. A gas generator 30 has a container which has an outer housing with an upper housing 32 and a lower housing 34 and a cylindrical separator 36 , which is arranged in the outer housing, on. One end of the separator 36 passes through an opening at the bottom of the lower housing 34 and protrudes down. The inner peripheral surface of the opening and the outer peripheral surface of the partition member 36 are welded by laser beam welding or the like. An ignition means (booster propellant) 40 is inside the separator 36 housed and a gas generating agent (main propellant) 42 is outside of the separator 36 accommodated.

The separator 36 is with the igniter 10 provided at the previously described end thereof. If the ignition 40 from the igniter 10 is ignited, gas is from an opening 44 of the separator 36 pressed in to the gas generating agent 42 to ignite, whereby a large amount of gas is generated quickly and through a filter 46 , which is formed of a sieve or the like, is pressed and by ei ne opening 48 from the gas generator 30 is pressed out, so that the airbag is inflated. 9 shows only an example of the gas generator and various Gas generators of other than the form shown in the drawing can also be used.

[Of the invention too expectorant problems]

In the conventional in 8th Ignition device shown must be the length or welding conditions of the thread 22 be precisely controlled to provide electrical resistance of the thread 22 what causes many manufacturing problems and increases costs.

In addition, it is necessary that the reagent 14 is sensitive to even with a small amount of the thread 22 generated energy, and wherein a handle of such a sensitive reagent 14 special care is required.

A The object of the present invention is to provide an ignition device, which is not a resistance heat generating Element such as As a thread or the like used, and which suitable is to use a reagent which is easy to prepare is and is safe in the handling of it. Another task the present invention is to provide a gas generator, which with the igniter is provided.

[Means for releasing the problems]

According to the present Invention these objects by an ignition device according to claim 1 or claim 2 and a gas generator according to claim 3.

A detonator The present invention includes a housing, a housing disposed in the housing Reagent, an electrode and a plasma generating agent for generating a plasma by being energized and initiates a reaction of the reactant.

The detonator The present invention comprises a housing, an electrode and a Mixture of a reagent and a plasma-generating agent, which in the housing is arranged on, and may be characterized in that the plasma generating agent in response to ignition of the Electrode generates a plasma and thus a reaction of the reagent triggered becomes.

In the ignition device according to the present Invention is when a voltage is applied to the electrode, the plasma generating agent in a high temperature plasma state implemented. The heat generated by the plasma generating agent causes to initiate reaction of the reactant and high pressure gas generated from the reaction or heat generated by the reaction ignites the gas generating agent in the gas generator. Because this igniter is provided with the plasma generating agent instead of providing a thread, It can be easily prepared and can with a high yield ratio at low Costs are produced without fluctuations in quality.

There the heat-producing Energy of the plasma generating agent greater than the heat-generating Energy of the thread, a reactant can be used which is safer to handle than the sensitive reagent, which was used in the use of the thread.

[Short description of the Drawings]

1 FIG. 10 is a cross-sectional view of an ignition device according to an embodiment of the present invention. FIG.

2 FIG. 10 is a cross-sectional view of an ignition device according to another embodiment of the present invention. FIG.

3 FIG. 10 is a cross-sectional view of an ignition device according to still another embodiment of the present invention. FIG.

4 FIG. 10 is a cross-sectional view of an ignition device according to an embodiment of the present invention. FIG.

5 FIG. 10 is a cross-sectional view of an ignition device according to an embodiment of the present invention. FIG.

6 FIG. 10 is a cross-sectional view of an ignition device according to an embodiment of the present invention. FIG.

7 FIG. 10 is a cross-sectional view of an ignition device according to an embodiment of the present invention. FIG.

8th FIG. 12 is a cross-sectional view of an ignition device according to the related art. FIG.

9 Fig. 10 is a cross-sectional view showing an example of a construction of a gas generator.

[Description of the Embodiments]

Now, referring to the character Embodiments are described. 1 to 7 FIG. 15 are cross-sectional views of an ignition device according to an embodiment of the present invention. FIG.

According to an igniter 50 , what a 1 is shown is a housing 56 from a cup 52 and a headboard 54 which through an entrance of the mug 52 is used, and a reagent 58 which is in the housing 56 filled, constructed. In this embodiment, the cup 52 a circular container formed of a SUS304 or the like. The headboard 54 is a substantially disk-shaped member made of SUS304 or the like, and an outer peripheral surface thereof is on an inner circumferential surface of the cup 52 fixed by welding or the like.

The head piece 54 is with a through hole 60 which is in the direction of the thickness of the header at the center thereof. Electrode pins 62 . 64 are in the hole 60 inserted at a distance from each other and these pins 62 . 64 are by an insulating fastening material 66 , such as As glass or the like, on the head part 54 attached to it from the headboard 54 keep. End surfaces of the pins 62 . 64 are flush with an end surface of the headboard 54 , A thin plate-shaped formation of the plasma-generating agent 72 is at the end surface (the upper end surface in the drawing) of the head part 54 arranged on the inside of the cup.

The plasma generating agent 72 is formed of, for example, water glass (Na ₂ O / SiO ₂ , K ₂ O / SiO ₂ ), KClO ₃ , KClO ₄ , KCl and the like, and powders such as KClO ₃ , KClO ₄ , KCl and the like, which are incorporated herein by reference a thin plate shape is formed by being pressed. The ends of the pins 62 . 64 are in contact with the plasma generating agent 72 ,

There is a gap between an end surface of the plasma generating agent 72 and a ceiling surface of the mug 52 and therein is a reagent 52 stored.

The outer surface of the mug 52 is with a resin cover 68 covered, which is formed of nylon, polypropylene or the like. The back of the mug 52 and the rear end surface of the head part 54 are with a synthetic resin cover 70 covered, which is formed of nylon, polybutylene terephthalate or the like. The pins 62 . 64 protrude outward through the resin cover 70 out.

The reagent 58 may be formed of only a first reactant (ignition means) and may be formed of a mixture of the first reactant and a second reactant (particles of an oxidizer). Although the nature of the first reactant is not particularly limited, a single metal such as Mg, Zr, Ti, W, B, Si, C, Be, Li, Al, V, CaC ₂ , Ca, Ce, La or the like or an alloy thereof or a compound thereof used. Although the kind of the second reactant is not particularly limited, KClO ₄ , KClO ₃ , KlO ₄ , NH ₄ ClO ₄ , NH ₄ NO ₃ , KNO ₃ , Fe ₂ O ₃ , Fe ₃ O ₄ , Sr (NO ₃ ) ₂ , CuO, NiO and the like.

In the ignition device constructed in this way 50 if there is a voltage between the pins 62 . 64 is applied, a high temperature plasma from the plasma generating agent 72 which is between these two pins 62 . 64 is provided generated. Then the reagent dissolves 58 by heat from the plasma, a reaction and then gas is generated, which contains tiny high-pressure and high-temperature particles. When the reactant 58 Contains particles of an oxidizing agent, the metal particles are oxidized rapidly and thus generates heat due to the oxidation process of the particles of the oxidizing agent, whereby the reaction is promoted.

at this embodiment does not become a thread (wire bridge) used and thus can many problems during a production can be significantly reduced.

In this embodiment, a high temperature plasma becomes stable from the plasma generating agent 72 generated. Therefore, a reactant which is less sensitive than the reactant (igniter) used when the filament is used can be used, thereby facilitating the handling of the reagent.

At an in 2 shown ignition device 50A became the material of the headboard 54A changed to plastic (synthetic resin).

At the ignition device 50A in 2 is a housing 56A from a metallic cup 52A and the plastic head part 54A which goes through the entrance of the mug 52A used, constructed. The electrode pins 62 . 64 are in the headboard 54A used. An end surface of the head part 54A is flush with the end surfaces of the pins 62 . 64 , The plasma generating agent 72 is arranged to the end surface of the head part 54 to be superimposed. The cup 52A is covered with a synthetic resin cover, not shown. Other constructions are the same as those of the in 1 shown ignition device 50 and like components are represented by the same reference numerals.

In this ignition device 50A will if the section between the pins 62 . 64 is ignited, a high temperature plasma from the plasma generating agent 72 generated and the reagent 58 triggers a reaction by heat.

An in 3 shown ignition device 50B An exemplary embodiment not forming part of the invention comprises a plasma generating agent formed by mixing a plasma generating agent and a reactant. A mixture 72B is at the ends of the pins 62 . 64 in a spherical shape or in a small block shape using a binder such. As water glass or the like attached.

In this exemplary embodiment, the ends of the electrode pins protrude 62 . 64 from the end surface of the head part 54A forth and a mix 72B is on the pins 62 . 64 attached to cover the ends thereof. The mixture 72B is at the ends of the pins 62 . 64 appropriate to intervene. Other constructions are the same as the igniter 50A in 2 and the same components are denoted by the same reference numerals.

In the ignition device constructed in this way 50B when there is a voltage between the pins 62 . 64 is created, a high-temperature plasma generated by the plasma-generating agent, which is in the mixture 72B is included between the two pins 62 . 64 is provided. Then dissolve the reactant which is in the mixture 72B contained by heat from the high-temperature plasma, a reaction and then dissolves the reagent 58 which is outside the mix 72B is provided by reaction of heat.

4 shows an ignition device 50C a single pin structure. A headboard 54C is from a columnar section 54a and a flange portion 54b which is from the lower peripheral surface of the columnar portion 54a protrudes, constructs. A housing 56C is from the headboard 54C and a mug 52C which is on the columnar section 54a of the headboard 54C attached, constructed. The headboard 54C and the mug 52C Both are made of metal.

The headboard 54C is with a hole 60C , which extends in the direction of the thickness of the head part at the center thereof. A single electrode pin 62C is in the hole 60C used and on the headboard 54C through an insulating fastening material 66 , such as glass or the like, attached. One end of the terminal pin 62C is flush with one end of the headboard 54C and the plasma generating agent 72 is at the end surface of the head part 54C arranged.

The flange section 54b of the headboard 54C is with several bolt holes 54c Mistake.

In the ignition device constructed in this way 50C a single pin structure serves the head part 54C as a positive electrode. In other words, if a tension between the headboard 54C and the pin 62C is applied, a high-temperature plasma from the plasma-generating agent 72 generated and the reagent 58 triggers a reaction by the heat of it.

In an ignition device 50D in 5 Another exemplary embodiment, which is not part of the invention, is a housing 56D from a metallic cup 52D and a metallic headboard 54D which goes through the entrance of the mug 52D used, constructed. An outer peripheral surface of an insulating sleeve 80 , which is formed of an insulating material, abuts against the inner peripheral surface of the cup 52D , One end (the upper end in the drawing) of the insulating sleeve 80 is in contact with a ceiling surface of the cup 52D and the other end (the lower end) thereof is in a recess 54a fitted, which around the outer peripheral surface of the head part 54D is curved. A plate-shaped formation of a mixture 58D of MgPP (magnesium perchlorate (reagent)) and a plasma-generating agent is at the ceiling portion of the inner surface of the cup 52D arranged. The mixture is formed into a plate shape by using a binder or by being pressed. The mixture 58D is made using the binder or by being pressed from the top surface of the beaker 52D held. A distance 82 which is between the mixture 58D and the headboard 54D is filled with air or oxygen in a sealed sealed manner.

The headboard 54D is with a through hole 60D formed in the direction of the thickness of the head part at the center thereof. An electrode pin 62D is in the hole 60D used and on the headboard 54D through an insulating fastening material 66D , such as glass or the like, attached. One end of the terminal pin 62D is pointed and the pointed end is of the mix 58D arranged away to be in contact with it to be brought. An electrode pin 64D is on the back surface of the headboard 54D fixed by welding or the like.

Although not shown, the outer surface of the cup is 52D covered with a synthetic resin cover and the back of the mug 52D and the rear end surface of the head part 54D are covered with a resin cover (similar to the resin cover 70 , what a 1 and 2 shown). The pins 62D . 64D protrude through the resin cover to the outside.

In the ignition device constructed in this way 50D occurs when a voltage between the pins 62D . 64D is applied, an arc discharge from the tip of the terminal pin 62D to the ceiling of the mug 52D on. Because the insulating sleeve 80 on the inner peripheral surface of the cup 52D is present, occurs in this case, an arc discharge only between the pin 62D and the ceiling surface of the mug 52D on. When the arc is through the mixture 58D runs, one reacts in the mixture 58D containing plasma generating agent and generates a high temperature plasma and the MgPP in the layer of the mixture 58D triggers a reaction.

In an ignition device 50E in 6 Another exemplary embodiment, which is not part of the invention, is an end of a terminal pin 62E with a mixture 88 covered. The mixture 88 is by soaking the end of the terminal pin 62E in an aqueous mixture of MgPP and a plasma generating agent, then removing the terminal pin 62E from it and dipping the same at the end of the pin 62E attached.

A reagent 86 of MgPP formed by pressure molding is on the end surface of the head part 54D appropriate. A gap 82 which is between the reagent 86 and the ceiling surface of the mug 52D is formed is filled with a metallic shell (metallic wool), which is formed of metal, such as Zr, Mg, Ti, W, Al and the like. Other constructions of in 6 shown ignition device 50E are exactly the same as the ones in 5 shown ignition device 50D and the same components are represented by the same reference numerals.

In the ignition device constructed in this way 50E occurs when a voltage between the pins 62E and 64D is applied between the pin 62E and the ceiling surface of the mug 52D an arc discharge and a high temperature plasma is generated by a plasma generating agent in the mixture 88 generated. By heat, MgPP in the mixture causes a reaction. In the mix 88 generated heat becomes the reactant 86 over the metallic sleeve 84 transferred and in the mix 88 generated heat causes burning of the metallic sleeve 84 whose combustion heat also to the reagent 86 is transmitted. As such, heat transferred triggers a reaction of the reactant 86 out.

An ignition device 50F in 7 A further exemplary embodiment which is not part of the invention comprises a metallic cup 52D and a resin cover 70F on which at the back end (opening) of the mug 52D is provided. The reagent 86 formed by press molding of MgPP is on the ceiling surface of the cup 52D provided. A gap 82F is between the reagent 86 and the resin cover 70F educated.

Two electrode connection pins 62F . 64F pass through the resin cover 70F in the forward and reverse directions (vertical direction in 7 ). The sections of the connection pins 62F . 64F which are in the gap 82F are arranged with mixtures 90a respectively. 90b covered.

The mixtures 90a . 90b are by soaking the ends of the pins 62F . 64F in aqueous mixtures of MgPP and a plasma generating agent, taking them out and drying them on the pins 62F . 64F attached.

The metallic sleeve 84 is in the room 82F filled and the outer surface of the mug 52D is covered with a synthetic resin cover, not shown.

In the ignition device thus constructed 50F flows when there is a voltage between the pin 62F and the pin 64F is applied, a current between the pin 62F . 64F over the metallic sleeve 84 and a plasma generating agent in the mixture 90a . 90b produces a high temperature plasma and MgPP in the mixture 90a . 90b triggers a reaction. Of the mixtures 90a . 90b generated heat becomes the reactant 86 over the metallic sleeve 84 transmits and causes combustion of the metallic sleeve 84 to generate heat. Thus generated heat causes triggering of a reaction of the reactant 86 ,

The igniter of the present invention can be used in various gas generators. The gas generators can be in different airbag systems for a driver's seat, for a front seat, for a rear seat, for a side, for protecting a head and for protecting a pedestrian or in a seat belt pretensioner.

[Advantages]

As previously described according to the present Invention, as no bridgewire is used, an ignition device, in which a problem of welding can be avoided and a reagent can be used which is easily prepared can be and is safe to handle, and a gas generator, which is such an ignition device used, provided.

Claims (3)

Ignition device, comprising: a housing ( 56 ; 56A ; 56C ), a reagent ( 58 ), which in the housing ( 56 ; 56A ; 56C ), an electrode ( 62 . 64 ; 62C ); and a plasma generating agent ( 72 ), which in the housing ( 56 ; 56A ; 56C ) is arranged to generate a plasma in response to ignition of the electrode ( 62 . 64 ; 62C ) and which causes the reactant ( 58 ) triggers a reaction whereby the housing ( 56 ; 56A ; 56C ) from a cup ( 52 ; 52A ; 52C ) and a headboard ( 54 ; 54A ; 54C ), which through an entrance of the cup ( 52 ; 52A ; 52C ) is inserted, wherein the head part ( 54 ; 54A ; 54C ) with a through hole ( 60 ; 60C ) through which the electrode ( 62 . 64 ; 62C ), characterized in that an end surface of the electrode ( 62 . 64 ; 62C ) with an end surface of the head part ( 54 ; 54A ; 54C ) is flush, and that a thin plate-shaped formation of the plasma-generating agent ( 72 ) on the end surface of the head part ( 54 ; 54A ; 54C ) is arranged so that it extends over the entire cross-section of the interior of the cup ( 52 ; 52A ; 52C ). A gas generator comprising: a gas generating means and an ignition device ( 50 ; 50A ; 50C ) for triggering a gas-generating reaction of the gas-generating agent, characterized in that the ignition device ( 50 ; 50A ; 50C ) is the ignition device according to claim 1. Airbag device, characterized in that the Airbag device the ignition device according to claim 1.