CN100540513C - Aerator and gas-bag system - Google Patents

Abstract

The invention discloses a kind of aerator, be used to use gas under pressure and pass through the combustion gases that burning gas generating agent generates be airbag aeration, it has reached following technical qualification (1) to (6): (1) gas under pressure contains a kind of rare gas element, but is substantially free of aerobic; (2) generate agent for gas, by following formula: rb=α p ⁿ(in formula, rb: combustionvelocity, α: coefficient, p: pressure, and n: the pressure index that pressure index) draws is 0.8 or littler; (3) amount of gas under pressure (mole number) (A1) and amount (mole number) the ratio A1/A2 (A2) that passes through the gas that burning gas generating agent generates be 1 to 20; (4) the ratio B1/B2 of the quality (B2) of quality of gas under pressure (B1) and gas generation agent is 1 to 20; (5) to generate the quality of agent be 0.5 to 30g to gas; And the stowing pressure of (6) gas under pressure is 30000 to 67000kPa.

Description

Aerator and gas-bag system

The application is one and divides an application that the applying date of corresponding female case is on November 27th, 2002, and application number is 02825182.2, and denomination of invention is an aerator, and the application people is a Daisel chemical industry Co., Ltd.

Technical field

The present invention relates to a kind of aerator that is applicable to car airbag system.The invention provides a kind of aerator, the combustion residue that the fragment of the plate that wherein can break and gas generate agent is prevented from flowing out aerator.

Background technology

Aerator as being used among the car airbag system has one type, and wherein the air bag using gas combustion gases that generate agent are inflated, and also have one type, and wherein the air bag using gas combustion gases and the gas under pressure that generate agent inflated.In the aerator of arbitrary type, the combustion residue that requirement generates when burning gas generating agent is not discharged in the air bag such as the powdery metal or the metal oxide that are generated by each component of gas generation agent.Therefore, made following trial, promptly by changing the generation that structure that gas generates the composition of agent or aerator suppresses combustion residue.

In addition, also have one type aerator, wherein air bag only uses gas under pressure to be inflated.But, along with the development of the aerator of the Puffer-type security system of automobile, it is noticeable day by day to use gas under pressure and gas to generate the aerator of agent simultaneously.

In addition, made a kind of like this trial, a strainer promptly has been set flows out, perhaps by changing the generation that structure that gas generates the composition of agent or aerator suppresses combustion residue with the fragment of the plate that prevents to break.

Prior art as relevant includes JP-H09-76870A, US-3966226A and US-4018457A.

Require in the basic fundamental of design aspect the aerator to be, air bag must be in the given time inflated starting air bag effectively with predetermined amount, and has proposed the multiple suggestion about structure traditionally.Such as, JP-H08-282427A promptly is.As other related art, known JP-S44-10443B, US-6189922A and JP-2002-166817A in addition.

Because aerator is made for automobile, all is important design requirements so can influence the aerator weight and the size of vehicle weight.Therefore, requirement further reduces the weight of aerator and keeps its original every function simultaneously.

Summary of the invention

An object of the present invention is to provide a kind of aerator, be used to use gas under pressure and pass through the combustion gases that burning gas generating agent generates be airbag aeration, comprising:

One gas under pressure chamber has the shell that is made of round shape gas under pressure chamber housing and filling with gas under pressure; One producer gas generator has the shell that is made of gas generator shell and puts portfire and gas generation agent in described gas generator shell; And a diffusion part,

Wherein, gas generator shell is connected in an end of gas under pressure chamber housing and diffusion part is connected in the other end of gas under pressure chamber housing, and

Between gas under pressure chamber and the producer gas generator by first can the break plate sealing, and between gas under pressure chamber and the diffusion part by the second plate sealing of can breaking;

Described aerator has reached following technical qualification (1) to (6):

(1) described gas under pressure contains rare gas element, but is substantially free of aerobic;

(2) generate agent for gas, by following formula: rb=α p ⁿThe pressure index that draws is 0.8 or littler,

In formula, rb: combustionvelocity, α: coefficient, p: pressure, and n: pressure index;

(3) the ratio A1/A2 of the amount A2 of the amount A1 of the described gas under pressure of representing with mole number and the gas of representing with mole number that generates that agent generates by the described gas that burns is 1 to 20;

(4) the ratio B1/B2 of the quality B2 of the quality B1 of described gas under pressure and described gas generation agent is 1 to 20;

(5) to generate the quality of agent be 0.5 to 30g for described gas; And

(6) stowing pressure of described gas under pressure is 30000kPa to 67000kPa.

Preferably, in described technical qualification (2), the combustion flame temperature that described gas generates agent is not higher than 3000 ℃.

Preferably, described aerator further reaches technical qualification (7), makes the amount A1 of the described gas under pressure represented with mole number and with cm ²The ratio A1/C that the described gas of expression generates the total surface area C of agent is 0.004 to 0.05 mole/centimetre ²

Preferably, described aerator further reaches technical qualification (8), makes with cm ²The described gas of expression generates the total surface area C of agent and with cm ²Ratio C/E of the total area E of the venting hole of expression is 0.5 to 4.

Preferably, the outer diameter D of described gas under pressure chamber housing and the ratio L/D of length L are 1 to 10.

Preferably, described gas under pressure chamber housing is axially and all be symmetric radially.

Preferably, the gas under pressure pack hole is formed on the side surface of described gas under pressure chamber housing, and described gas filling hole gives shutoff by pin after the described gas under pressure of filling, and wherein pin puts in the length that the extension of gas under pressure chamber housing and described pin has and makes combustion gas flowing clash into this extension.

Preferably, comprise that its side surface and end surface are provided with one of at least the block of gas squit hole in the two, this block covers first plate that can break from gas under pressure chamber one side.

Preferably, described gas generator shell is connected by resistance welding with gas under pressure chamber housing with gas under pressure chamber housing and diffusion part.

Preferably, the external diameter of gas under pressure chamber housing, gas generator shell and diffusion part is equal to each other or is approaching.

According to a further aspect of the invention, provide a kind of aerator of airbag aeration that is, having comprised:

A gas under pressure chamber of storing pressurized gas wherein;

One producer gas generator, this producer gas generator is connected in an end of described gas under pressure chamber and comprises described producer gas generator and first communicating aperture that described gas under pressure chamber is communicated with, and comprises gas-evolution agent and the portfire that is used to light gas-evolution agent in the described producer gas generator;

One diffusion part, this diffusion part are connected in the other end of described gas under pressure chamber and comprise second communicating aperture that described diffusion part is communicated with described gas under pressure chamber;

First of described first communicating aperture of the sealing plate that can break before starting described aerator;

Second of described second communicating aperture of the sealing plate that can break before starting described aerator; And

Block, this block comprises end surface, has the peripheral surface and the flange part of gas squit hole, and by the part bending that makes gas generator shell in described flange part place fix and from the gas under pressure chamber one side cover cap, first plate that can break firmly, make described gas squit hole relative with the inwall of described gas under pressure chamber.

According to a further aspect of the invention, provide a kind of aerator of airbag aeration that is, having comprised:

A gas under pressure chamber of storing pressurized gas wherein;

One producer gas generator, this producer gas generator is connected in an end of described gas under pressure chamber and comprises described producer gas generator and first communicating aperture that described gas under pressure chamber is communicated with, and comprises gas-evolution agent and the portfire that is used to light gas-evolution agent in the described producer gas generator;

One diffusion part, this diffusion part are connected in the other end of described gas under pressure chamber and comprise second communicating aperture that described diffusion part is communicated with described gas under pressure chamber;

First of described first communicating aperture of the sealing plate that can break before starting described aerator;

Second of described second communicating aperture of the sealing plate that can break before starting described aerator; And

Block, this block comprises end surface, has the peripheral surface and the flange part of gas squit hole, and by the part bending that makes diffusion part in described flange part place fix and from the gas under pressure chamber one side cover cap, second plate that can break firmly, make described gas squit hole relative with the inwall of described gas under pressure chamber.

Preferably, also comprise the producer gas generator that is used to generate combustion gases, and diffusion part with venting hole, wherein producer gas generator has the shell that is made of gas generator shell and puts portfire and gas generation agent in housing, gas generator shell is connected in an end of gas under pressure chamber housing and diffusion part is connected in the other end of gas under pressure chamber housing, and between gas under pressure chamber and the producer gas generator by first can the break plate sealing, and between gas under pressure chamber and the diffusion part by the second plate sealing of can breaking.

Preferably, described second plate that can break is welded in described diffusion part with welding process its outer edges portion place.

Preferably, satisfied following formula: the L2 〉=D2/2 of diameter (D2) of the part except that the peripheral edge portion that welds of plate that can break of the distance (L2) and second between the venting hole on the blind end of described cap shape diffusion part surface and the most close this blind end surface.

Preferably, basically only use the inflation means of gas under pressure as air bag, and also comprise diffusion part, be connected in the gas under pressure chamber and have venting hole, wherein be received among the diffusion part as the lighter for ignition of the means of breaking of the plate that can break by breaking plate sealing between gas under pressure chamber and the diffusion part.

Preferably, be provided with the round shape venting hole sheet material of the venting hole that is connected in diffusion part, venting hole sheet material be mounted to coincide with gas under pressure chamber housing axially, and pass venting hole sheet material and discharge with to airbag aeration from being arranged on aperture on the venting hole sheet material from the gas under pressure that venting hole is discharged.

Preferably, described diffusion part is the cap shape and has a plurality of venting holes.

Preferably, the described plate that breaks is welded in described diffusion part with welding process its outer edges portion place.

According to another aspect of the invention, a kind of gas-bag system is provided, be provided with the initiating signal take-off equipment that comprises shock transducer and control unit, and put the aerator of first and second aspects and the module housing of air bag according to the present invention.

As means that overcome the above problems, the present invention (I-1) provide a kind of aerator, wherein the combustion gases and the pressure medium that are generated by burning gas generating agent of air bag inflated, comprise a kind of be used to make combustion gases bump one or at least two wall portion surfaces make combustion residue adhere to this one or the device at least two wall portion surfaces, and other one be used to make combustion gases to contact with pressure medium to make the combustion residue that is included among the combustion gases because temperature head is cooled and the solidified device, wherein because the fusing point of the combustion residue that burning gas generating agent generates is higher than the gas purging temperature by gas generation agent generation.

Secondly, as another means that overcome the above problems, the present invention (I-2) provide a kind of aerator, wherein the combustion gases that generated by burning gas generating agent of air bag and the effect of pressure medium are inflated, comprise that one is used to change the flow direction of combustion gases so that the combustion residue among the combustion gases adheres to one or the device at least two wall portion surfaces, and other one the combustion residue that is used to that combustion gases are contacted with pressure medium and makes among the combustion gases be cooled and the solidified device owing to the temperature difference, wherein because the fusing point of the combustion residue that burning gas generating agent generates is higher than the gas purging temperature that is generated the agent generation by gas.

Above-mentioned every invention all is furnished with respectively to be used to capture and is included in the device that gas generates the combustion residue among the agent combustion gases, can obtain following beneficial effect (1) to (3).

Beneficial effect (1)

Be associated by the fusing point that makes the combustion residue among generating gas purging temperature that agent generates and be included in combustion gases by gas, can promote to form bulk (scoriform) combustion residue.Gas generates the generation gas purging temperature of agent can be according to jar pressure inside (practical measurement value) and the amount of the gas that generates and the specific heat of the other gas that generates that obtain when burned in having the jar of predetermined volume, such as, obtain (the every numerical value in the formula except T2 can pass through calculating and wait acquisition) according to following formula.When being higher than the temperature that generates gas purging fully, the fusing point of residue (is not less than 100 ℃, preferably be not less than 500 ℃) time, combustion residue can easily be cured and become blocky (scoriform), and it is stayed aerator interior and is suppressed discharge aerator outside.

$\frac{C_{V1}{M}_1{T}_1}{a}+\frac{C_{V2}{M}_2{T}_2}{b}=\frac{\left\{\frac{C_{V1}{M}_1+C_{V2}{M}_2}{M_1+M_2}\right\}\×(M_1+M_2)\×T_3}{c}$

In formula, the meaning of symbol is as follows:

A item: the heat of initial air in jar

B item: the heat of expellant gas (promptly entering a jar interior gas)

C item: the heat of the mixed gas material after the startup aerator in (after initial air is mixed in the jar) jar

C _V1: the mean specific heat of air

M ₁: the mole number of air

T ₁: air (before starting) temperature

C _V2: the mean specific heat of discharging gas

M ₂: the mole number of discharging gas

T ₂: generate the gas purging temperature

T ₃: the gas temperature after mixing (calculating) according to perfect gas state formula

Beneficial effect (2)

By by means of coming cooling combusting gas, combustion residue is solidified with the temperature head of pressure medium.When the pressure medium of pyritous combustion gases and lesser temps contacted with each other, the pyritous combustion residue was cooled and solidifies to become bulk (scoriform) and to be deposited in aerator interior, makes that residue is prevented from discharging outside the aerator.Beneficial effect (2) can be further enhanced owing to collaborative beneficial effect (1).

Beneficial effect (3)

By making combustion gas flowing bump wall portion surface, combustion residue can adhere to wall portion surface.Pressure medium has lesser temps owing to be included in that combustion residue among the combustion gases has high temperature, and as in the above-mentioned beneficial effect (2), combustion residue is cured when residue contacts with pressure medium.And further, make solidified combustion residue bump wall portion surface, and therefore can reduce the amount of the combustion residue of discharging the aerator outside.Beneficial effect (3) can be further enhanced owing to working in coordination with beneficial effect (1) and (2).

In order easily to obtain beneficial effect (1) to (3) among above-mentioned every invention, a kind of preferred aerator comprises, a shell of being made by round shape pressure medium chamber housing; One filling is with the pressure medium chamber of pressure medium; One producer gas generator is connected in an end of pressure medium chamber and comprises that the portfire and the gas that are received among the gas generator shell generate agent; And the diffusion part that is connected in the pressure medium chamber the other end, wherein, between pressure medium chamber and the producer gas generator by first can the break plate sealing, between pressure medium chamber and the diffusion part by second can the break plate sealing, and side surface and end surface one of at least on have the block of gas squit hole, this block covers first plate that can break from pressure medium chamber one side.

Just like above-mentioned, by first can the break plate sealing, therefore, gas generates agent when burned between pressure medium chamber and the producer gas generator, and the abundant temperature head between combustion gases and the pressure medium is guaranteed that the solidification effect of combustion residue can be brought into play.So, even when aerator be stored under high temperature (such as, when summer, in the automobile the inside that comprises the airbag unit of being furnished with aerator), the temperature of pressure medium is more much lower than the exhaust temperature that gas generates agent, thereby the solidification effect of combustion residue is brought into play.But, can break under the situation of plate not having first, pressure medium is generated the combustion heat heating of agent by gas, makes pressure medium and the temperature head of discharging inter gas diminish, thereby has weakened the solidification effect of combustion residue.

In addition, be to deposit under the normal pressure because gas generates agent, compare with depositing situation about being under the high pressure, reduced the deterioration that the gas that causes because of pressure generates agent.Secondly, by be arranged on side surface and end surface one of at least on have the block of gas squit hole, make the wall portion surface of the easier bump pressure medium of combustion gases chamber housing.Point out that in passing in order to strengthen the capture effect of combustion residue, block also can be arranged on second plate one side of can breaking.

In addition, as another means that are used to overcome the above problems, the present invention (I-4) provide a kind of aerator, comprises a shell that is made of round shape pressure medium chamber housing; One filling is with the pressure medium chamber of pressure medium; One producer gas generator is connected in pressure medium chamber one end and comprises that the portfire and the gas that are received among the gas generator shell generate agent; And the diffusion part that is connected in the pressure medium chamber the other end, wherein between pressure medium chamber and the producer gas generator by first can the break plate sealing, between pressure medium chamber and the diffusion part by second can the break plate sealing, one block covers first plate that can break from pressure medium chamber one side, and in addition, reach at least one that is selected from the following technical qualification (a) to (c).

(a) inner wall surface of pressure medium chamber housing is coarse;

(b) the feasible combustion gases from the ejection of gas squit hole of the orientation of gas squit hole can be with the inner wall surface of the shortest impingement distance pressure medium chamber housing; And

(c) barrier structure is arranged near the gas squit hole, and flows away after bump stops object from the combustion gases of gas squit hole ejection.

Because above-mentioned every invention has reached technical qualification (a) to (c), also can obtain beneficial effect (4) to (6) except beneficial effect (2) and (3).

Beneficial effect (4)

Described in technical qualification (a), when the inner wall surface of pressure medium chamber housing when being coarse, combustion residue is easy to be tangled and capture by the uneven part of uneven surface, makes that the discharging of combustion residue is suppressed.

In order to present beneficial effect (4) preferably, in technical qualification (a), preferably, the inner wall surface that forms the pressure medium chamber housing of pressure medium chamber is provided with continuous in a circumferential direction or interrupted one (many) bars groove that forms (preferably, its degree of depth is not less than 0.1mm, and more preferably, be not less than 0.2mm).By making a kind of like this groove, case weight can be corresponding to the formation of groove and is reduced.

Beneficial effect (5)

Described in technical qualification (b), be arranged on the aperture direction of the gas squit hole on the block by restriction, the frequency of exposure of combustion gases and wall surface can increase (that is can prolong duration of contact), make combustion residue adhere to wall portion surface easily, discharge the aerator outside and suppressed combustion residue.

In order to present beneficial effect (5) preferably, ask in technical qualification in (b), can adopt gas squit hole wherein to be arranged on the block side surface and orientation towards the scheme of producer gas generator; Wherein the gas squit hole is arranged on the block side surface and is provided with one and is used for along the scheme of circumferential restriction from the member of the injection direction of the combustion gases of gas squit hole; And wherein the gas squit hole is arranged on the end surface of block and is provided with a scheme that is used for along the circumferential direction limiting from the member of the injection direction of the combustion gases of gas squit hole.

Beneficial effect (6)

As described among the technical qualification (c), because combustion gases bump barrier structure from the ejection of gas squit hole, at first combustion residue at first adheres to barrier structure and is captured, secondly by the bump barrier structure, the mobile multilated of combustion gases makes that the frequency of exposure on combustion gases and wall portion surface can increase (that is can prolong duration of contact), and therefore, also obtained beneficial effect (5) basically and suppressed combustion residue to be discharged into the aerator outside.

In order to present beneficial effect (b) preferably, in technical qualification (c), can adopt the and the following scheme:

A kind of scheme, wherein barrier structure is columnar, the end surface of one end and block forms one, the other end seals, and be formed with one with a clearance plane to being arranged on the side surface of the gas squit hole of block on the side surface, and flow away from opened end portions after the inwall of the side surface of combustion gases on the bump circle tube member.

A kind of scheme, wherein barrier structure is discoid, with the end surface formation one of block and the inner wall surface of stretching to pressure medium chamber housing from the end surface of blocking a shot, and the combustion gases that the gas squit hole from the side surface that is arranged on block sprays flow away from the gap between pressure medium chamber inner walls surface and the barrier structure peripheral edge portion after bump barrier structure peripheral edge portion.

A kind of scheme, wherein barrier structure is discoid, with the end surface of block form one and from the end surface of block stretch to pressure medium chamber housing inner wall surface so that its peripheral edge portion abut on the inner wall surface, one gas through port is arranged on the peripheral peripheral portion of barrier structure, and be provided with one and be used for, and spray from the gas through port from the combustion gases that are arranged on the gas squit hole ejection on the block side surface along the member of circumferential restriction from the injection direction of the gas of gas through port.

The aerator of foregoing invention can reach technical qualification (a) and (b), technical qualification (a) and (c), technical qualification (b) and (c), perhaps technical qualification (a) and (b) and (c).

In addition, in the aerator of foregoing invention, can adopt a kind of like this scheme, promptly block has the flange part that forms by outside bending aperture peripheral edge portion, and gas generator shell is fixed on the flange part place by a part that bends gas generator shell.

In addition, in the aerator of foregoing invention, can adopt a kind of like this scheme, promptly a pressure medium pack hole is formed on the side surface of pressure medium chamber housing, and pack hole gives shutoff by a pin after pressure medium is filled with.In the aerator of foregoing invention, can adopt a kind of like this scheme, promptly pin puts in the pressure medium chamber and length that its extension has makes gas generate the combustion gas flowing bump extension of agent.By guaranteeing a certain length of pin extension in this way, can make combustion gases bump pin, make combustion residue adhere to pin.

In foregoing invention, the fusing point of the combustion residue of burning gas generating agent generation is not less than the gas generation agent that is generated the gas purging temperature of agent generation by gas by adopting wherein, can also further present beneficial effect (1) in addition.

In foregoing invention, can adopt a kind of like this scheme, promptly pressure medium chamber housing all is being symmetric upwards axially and directly.By adopting a kind of like this symmetric shape, being oriented in when assembling of pressure medium chamber housing needn't be regulated, and makes assembly working be simplified.

In foregoing invention, can adopt a kind of like this scheme, promptly gas generator shell and pressure medium chamber housing connect in succession with resistance welding.

Being used in gas among the present invention generates agent and can be determined as follows in conjunction with the composition of pressure medium:

Pressure medium comprises such as rare gas elementes such as argon or helium (in the present invention, also comprising nitrogen in the rare gas element).When pressure medium had a kind of composition that does not comprise oxygen basically, argon was in order to promoting the thermal expansion of pressure medium, and preferably contained helium, because the leakage of pressure medium can detect easily and thereby can prevent that bad product from coming into the market.In addition, a kind of desirable pressure medium does not comprise oxygen, generates the burning of agent but can comprise oxygen to promote gas.Comprising under the situation of oxygen, its addition is 10 moles of % or still less preferably, more preferably 5 moles of % or still less.The stowing pressure of pressure medium is preferably 10000 to 70000kPa, and more preferably 30000 to 60000kPa.

Generate agent as gas, such as, can use a kind of like this material, comprise fuel and oxygenant or fuel, oxygenant and slag and form agent, when needing and wedding agent blending and be made for required shape.If use a kind of like this gas to generate agent, the gas that generates by burning gas generating agent can be used to airbag aeration and make it expansion with pressure medium.Especially, when use comprised gas that slag forms agent and generates agent, residue formed easily, made the amount of the vaporific combustion residue of discharging from aerator greatly to reduce.But, generate when gas under the situation that fill-up is less and residue that generated is less of agent, not necessarily use slag to form agent.

Preferred fuel can be to be selected from a kind of in the following guanidine derivative or at least two kinds: nitroguanidine (NQ), Guanidinium nitrate (GN), Guanidinium carbonate, amino nitroguanidine, amino guanidine nitrate, carbonic acid aminoguanidine, nitric acid Imidocarbonic acid dihydrazide, carbonic acid Imidocarbonic acid dihydrazide, and nitric acid triaminoguanidine.Act as a fuel, also can use to be selected from a kind of in tetrazolium and the terazole derivatives or at least two kinds.

As oxygenant, the preferred use is selected from a kind of in following or at least two kinds: strontium nitrate, saltpetre, ammonium nitrate, potassium perchlorate, cupric oxide, ferric oxide and basic copper nitrate etc.

Form agent as slag, the preferred use is selected from a kind of in following or at least two kinds: acid clay, talcum, wilkinite, diatomite, kaolin, silica, alumina, water glass, silicon nitride, silicon carbide, hydrotalcite and their mixture.

As wedding agent, the preferred use is selected from a kind of in following or at least two kinds: the sodium salt of carboxymethyl cellulose, Natvosol, starch, polyvinyl alcohol, guar gum, Microcrystalline Cellulose, polyacrylamide and calcium stearate etc.

When adopting the pressure medium formed in the above described manner and gas to generate agent, the amount of pressure medium (A mole) preferably is adjusted into 0.2 to 10 with the molar ratio (A/B) of the amount (B mole) of the gas that generates by burning gas generating agent, and more preferably 0.4 to 4.Molar ratio A/B can be expressed as molar ratio A1/A2 in the following description.

The molar ratio of the amount by regulating pressure medium by this way and the amount of the gas that generates by burning gas generating agent can prevent the delay that aerator interior pressure raises and can prevent the excessive rising of aerator interior pressure.Thereby, can when burning gas generating agent, control the internal pressure of aerator, thereby and, reduced pressure medium chamber housing volume (that is, the length and/or the width (diameter) of pressure medium chamber housing have been reduced), even internal pressure correspondingly raises, can prevent that also the aerator interior excessive pressure raises when burning.Point out that in passing in aerator of the present invention, the weight of pressure medium (X) preferably is 0.1 to 7 with the weight ratio (X/Y) that gas generates the weight (Y) of agent, more preferably is 0.5 to 5.Weight ratio (X/Y) can be expressed as quality ratio B1/B2 in the following description.

Be used in that gas among the present invention generates that agent can comprise that 20 to 60% nitroguanidine in mass acts as a fuel and in mass 80 to 40% strontium nitrate as oxygenant, and preferably, in mass 30 to 40% nitroguanidine act as a fuel and in mass 70 to 60% strontium nitrate as oxygenant.In addition, wedding agent (Xylo-Mucine etc.) and slag form agent (acid clay etc.) and can also additionally mixed make an addition to fuel and oxygenant.In the case, preferably, fuel is 20 to 60% in mass, and oxygenant is 40 to 65% in mass, wedding agent is 3 to 12% (preferably in mass 4 to 12%) in mass, and slag to form agent be quality meter 1 to 20% (preferably in mass 3 to 7%).

According to aerator of the present invention, gas generates the combustion residue that contains among the combustion gases of agent and is suppressed beyond the discharge aerator.

Below, as means that overcome the above problems, the present invention (II-1) provide a kind of aerator, wherein air bag utilizes the combustion gases and the gas under pressure of the burning generation of gas generation agent to inflate, comprise: a gas under pressure chamber has the housing that is made of round shape gas under pressure chamber housing and filling with gas under pressure; One producer gas generator is connected in gas under pressure chamber one end and comprises the portfire and the gas that are received among the gas generator shell and generates agent; And a diffusion part, be connected in and gas under pressure chamber distinct portions, between gas under pressure chamber and the producer gas generator by the first plate sealing of can breaking, and between gas under pressure chamber and the diffusion part by the second plate sealing of can breaking, wherein

Diffusion part is a block, have gas via its a plurality of venting holes that pass, the residue (combustion residue) that contains in the fragment of plate and the combustion gases that generate by burning gas generating agent and disruptive first and second can break one of at least is prevented from flowing out beyond the aerator in these two.

In the present invention, can adopt diffusion part is that a block or a block are arranged on the arbitrary scheme in the diffusion part, and in addition, can adopt wherein diffusion part by being fixedly welded on the scheme of gas under pressure chamber housing, perhaps wherein diffusion part and gas under pressure chamber housing form the scheme of one.

Among the present invention, diffusion part is removed disruptive first and second can break among these two one or both of the fragment of plate and combustion residue to prevent their and flow out beyond aerator or to reduce its discharge.

In the aerator of the present invention (II-2), have gas via its a plurality of venting holes that pass and prevent that broken first can the break fragment of plate and the combustion residue that gas generates agent from flowing out one of at least block beyond the aerator in these two, it is indoor to cover first plate that can break from gas under pressure chamber one side to be arranged on gas under pressure.

Among the present invention, removed by being arranged on the indoor block of gas under pressure by first fragment and the combustion residue that plate produces that can break that break, thereby prevented that their from flowing out beyond aerator or reduce its discharge.

In the aerator of the present invention (II-3), have gas via its a plurality of discharge orifices that pass and prevent that broken first can the break fragment of plate and the combustion residue that gas generates agent from flowing out one of at least block beyond the aerator in these two, it is indoor to cover first plate that can break from gas under pressure chamber one side to be arranged on gas under pressure.

Among this invention, removed by being arranged on the indoor block of gas under pressure by broken first fragment and the combustion residue that plate produces that can break, thereby prevented that their from flowing out beyond aerator or reduce its discharge.

Preferably, the block of foregoing invention comprises a circle tube member, and an end opens wide and the other end sealing, and has a plurality of venting holes on the peripheral surface at least at it.

In the block of foregoing invention, preferably, the distance L between the closed end of block surface and the venting hole that approaches the blind end surface most, and the relation between the diameter D of the plate that can break, satisfied following formula: L 〉=D/2.In the case, distance L preferably is 3 to 8mm, more preferably is 4 to 8mm, and the most preferably is 5 to 8mm.

The diameter of the many venting holes on the block of foregoing invention preferably is 0.5 to 2mm, and more preferably is 0.5 to 1.2mm, and preferably is 20 to 1000mm in total orifice area of the many squit holes on cover (screen) ², and more preferably be 100 to 500mm ²

Preferably, the block of foregoing invention be arranged so that block axially and axially the overlapping each other of gas under pressure chamber housing.

Adopt above-mentioned block of the present invention, can obtain following beneficial effect (IIa) to (IIc).

(IIa) when block be arranged so that block axially with axially the overlapping each other of gas under pressure chamber housing the time, the closed end surface of gas under pressure bump block then changes its flow direction with each squit hole outflow from peripheral surface.Since gas and changing its flow out direction, foreign matter material (fragment of Po Sui broken plate etc.) be deposited in easily from every the closed end surface of covering within the pocket recess of squit hole near it.Point out in passing,, between cover and venting hole sheet material inwall, do not producing the gap, and the foreign matter material is prevented from without flowing out every cover by installing at the flange part place in the above described manner every cover.

(IIb) start and the plate that can break when being broken when aerator by lighter for ignition, the pressure of the pressure medium that can break the most close lighter for ignition in centre of plate and apply from a relative side also becomes maximum at central part, therefore, can break plate tendency is broken easily from central division.Reason for this reason, the foreign matter maximum length that the plate that can break by breaking produces has the length corresponding to the panel radius of can breaking.Thereby, just like above-mentioned, concern L 〉=D/2 if satisfy, then the degree of depth of pocket recess (L) becomes the length (D/2) that is equal to or greater than foreign matter, makes foreign matter become more or less freely and is deposited within the pocket recess.That is, further strengthened above-mentioned useful effect (IIa).

(IIc) because pressure medium must be from entering so that be discharged from via the squit hole on the peripheral surface every the cover aperture, the foreign matter that is included in the pressure medium is prevented from spilling beyond the aerator, and simultaneously, the outflow pressure of pressure medium is also controlled.In addition, by when starting by outflow pressure (discharge of unit time) every cover control pressure medium, the outflow pressure that can the prevent pressure medium broken influence of splitting broken state of plate that is subjected to breaking.

The present invention (II-10) provides a kind of aerator that meets any aerator described in above (II), comprise be used for by block change the combustion gas flow direction, combustion residue that combustion gases are comprised adheres to wall portion surface one or at least two portions, in addition combustion gases contacts with gas under pressure and because temperature head is cooled off and curing combustion gas in the combustion residue that comprises device, wherein the fusing point of the combustion residue that generates owing to burning gas generating agent is higher than the gas purging temperature by gas generation agent generation.

In the present invention (II-10), the beneficial effect (1) that can also obtain foregoing invention (I) except above-mentioned effect (IIa) to (IIc) is to (3).

In addition, in the present invention (II-10), can break under the situation of plate sealing by first between gas under pressure chamber housing and the producer gas generator, even and when gas generates the agent burning, enough temperature heads can be obtained between combustion gases and the gas under pressure, the solidification of combustion residue can be presented.Therefore, even when aerator be placed under the high temperature (such as, summer, within the automobile of the airbag unit that is equipped with aerator) time, the temperature of gas under pressure is markedly inferior to the generation gas purging temperature that gas generates agent, the feasible solidification that presents combustion residue.But, do not having first can break under the situation of plate, gas under pressure is generated the combustion heat heating of agent by gas, thereby and, the temperature head between gas under pressure and the emission gases diminishes, and makes the solidification that has weakened combustion residue.

In addition, remain under the normal pressure because gas generates agent, itself since the deterioration that pressure caused less than situation about remaining under the high pressure.Also have and since be provided with in side surface and end surface one of at least on have the block of venting hole, combustion gases clash into the wall portion surface of gas under pressure chamber housing easily.Point out that in passing in order to strengthen the capture effect for combustion residue, block also can be arranged on second and can break on plate one side.

The present invention (II-11) provide meet described in the above invention (II) and reach in addition the technical qualification (a) and (b) that are selected from the above invention (I) and (c) in the aerator of any aerator of at least one.

Since the present invention reach be selected from the technical qualification (a) and (b) and (c) at least one, except beneficial effect (2) and (3), can also obtain above beneficial effect (4) to (6).As among above (I), many combinations can be applied to technical qualification (a) and (b) and (c).

In addition, adopting wherein invention (II) can resemble in the invention (I), block has a flange part and gives the fixed scheme.

In addition, adopt the scheme that a pressure medium pack hole, a pin and an extension wherein are set invention (II) can resemble in the invention (I).

In invention (II), present beneficial effect (1) can resembling in above (I) in addition.Secondly, can be in invention (I), form the engaging of gas under pressure chamber housing, gas generator shell and gas under pressure chamber housing, the composition of gas generation agent and the relation between these several respects of gas under pressure.

Being used for gas among the present invention (II) generates agent and gas under pressure and is similar among the invention (I).

The molar ratio of the amount by adjusting gas under pressure in the above-described manner and the amount of the gas that generates by burning gas generating agent can reduce the fill-up of gas under pressure.Thereby, when the volume of gas under pressure chamber housing reduced (that is the length of gas under pressure chamber housing and/or width (diameter) reduce), same pressure also can keep and not increase the stowing pressure (internal pressure in the housing of=gas under pressure chamber) of gas under pressure before being reduced with volume.Point out that in passing in aerator of the present invention, the weight ratio (X/Y) that gas under pressure weight (X) and gas generate agent weight (Y) preferably is 0.1 to 7, and more preferably is 0.5 to 5.

According to aerator of the present invention, can suppress the fragment of the broken plate that contains in the gas and gas and generate the combustion residue that contains in the agent combustion gases and be discharged from outside the aerator.

In addition, the present invention's (III) purpose provides a kind of aerator, and wherein size and weight are reduced and do not lose every function of aerator, and a kind of gas-bag system that adopts this kind aerator.

If it is small-sized that the aerator that utilizes gas under pressure and gas to generate the combustion gases of agent is made, keep required gas under pressure fill-up (being the required fill-up of airbag aeration), internal pressure then reduces to raise because of internal capacity.And, under high pressure, burn under the situation that internal pressure raises if gas generates agent, thereby then internal pressure can might surpass the withstand voltage boundary of container of aerator or excessively increase the combustionvelocity that gas generates agent because of the generation high-temperature combustion gas further raises.As a result, gas flow speed becomes Tai Gao and the inflation of air bag regularly can not be remained within protection occupant's the Best Times.

But, when the technical qualification of in reaching invention (III), determining (1) to (6) and these technical qualification correlations, even in compact side inflator with rising internal pressure, same effect before also can guaranteeing to be miniaturized and do not cause above variety of issue with it.

As a kind of terms of settlement, invention (III-1) provides a kind of aerator, and wherein air bag is inflated by the combustion gases that gas under pressure and gas generate agent, reaches following technical qualification (1) to (6).

In other words, the aerator of invention (III-1) is a kind of aerator of the combustion gases filling air bag that generates with gas under pressure with by burning gas generating agent, and reaches following technical qualification (1) to (6):

(1) gas under pressure contains a kind of rare gas element, but is substantially devoid of oxygen;

(2) generate agent for gas, draw by following formula: rb=α p ⁿ(in formula, rb: combustionvelocity, α: coefficient, p: pressure, and n: pressure index pressure index) is 0.8 or littler;

(3) amount of gas under pressure (mole number) (A1) and amount (mole number) the ratio A1/A2 (A2) that passes through the gas that burning gas generating agent generates be 1 to 20;

(4) the ratio B1/B2 of the quality (B2) of quality of gas under pressure (B1) and gas generation agent is 1 to 20;

(5) to generate the quality of agent be 0.5 to 30g to gas; And

(6) stowing pressure of gas under pressure is 30000 to 67000kPa.

Below be to describe in detail.

(1) gas under pressure contains a kind of rare gas element, but is substantially devoid of oxygen.

Gas under pressure comprises such as the rare gas element of argon or helium (among the present invention nitrogen be also contained in rare gas element among).When gas under pressure had the composition that does not comprise oxygen basically, argon was in order to promoting the thermal expansion of gas under pressure, and comprised helium, made the escape of gas under pressure easily to detect, thereby and, can prevent coming into the market of bad product.

Gas under pressure does not comprise oxygen basically and means, oxygen is not included among the gas under pressure rigidly.Such certain situation is arranged: promptly trace oxygen is sneaked in the gas under pressure in the process of filling gas, perhaps oxygen is sneaked into rare gas element as impurity and can not be avoided fully, therefore, even former for this reason thereby when being comprised among the gas under pressure, also think it is not contain oxygen basically when oxygen.In the time of among oxygen is comprised in gas under pressure, the combustionvelocity of initial combustion gas generation agent in the stage increases rapidly to improve the internal pressure of aerator.But, if gas under pressure does not comprise oxygen basically, just can avoid this rising of aerator interior pressure.In the time of among oxygen is comprised in gas under pressure, preferably, the content of oxygen is 3 moles of % or still less.

(2) generate agent for gas, by following formula: rb=α p ⁿ(in formula, rb: combustionvelocity, α: coefficient, p: pressure, and n: the pressure index that pressure index) draws is 0.8 or littler.

In above invention, be p measuring pressure ₁(70kg/cm ²) the jar in combustionvelocity rb ₁Be p at pressure ₂(100kg/cm ²) the jar in measure combustionvelocity rb ₂Afterwards, pressure index (n) is from two formula rb ₁=α p ₁ ⁿAnd rb ₂=α p ₂ ⁿDraw.

By reaching the requirement of pressure index, just can suppress the rapid raising that gas generates agent incendiary combustionvelocity in the starting stage, make that the raising of aerator interior pressure is less.Reason for this reason is even when reducing the thickness of aerator (gas under pressure chamber housing), also can keep competent voltage endurance capability.In addition, because less raising (that is the internal pressure slight variations) gas of aerator interior pressure (gas under pressure chamber interior shell pressure) generates agent and burn steadily, make the unburnt situation that gas generates agent can not take place.Pressure index (n) preferably is 0.1 to 0.8, more preferably is 0.1 to 0.7.

A kind of like this technical qualification (2) can be reached by the composition of adjusting gas generation agent.

In technical qualification (2), when pressure index surpasses 0.8, gas generation agent has improved for the susceptibility of pressure, that is the influence of burning and being under pressure consumingly and changing, make the numerical range of following technical qualification (3) to (7) narrow down, this is difficult to adjust for reaching each technical qualification with regard to making.

(3) amount of gas under pressure (mole number) is 1 to 20 with amount (mole number) the ratio A1/A2 (A2) of the gas that generates by burning gas generating agent (A1).A1/A2 preferably is 3 to 15, and more preferably is 4 to 10.

When A1/A2 was not less than 1, the delay that aerator interior pressure raises was prevented, and when A1/A2 was not more than 20, the excessive rising of aerator interior pressure was prevented.

The amount of gas under pressure (mole number) is 0.1 to 2.0 mole (A1), it preferably is 0.1 to 1.5 mole, and it more preferably is 0.15 to 1.5 mole, and pass through the gas volume (mole number) that burning gas generating agent generates is 0.01 to 0.2 mole (A2), preferably be 0.01 to 0.15 mole, and more preferably be 0.02 to 0.15 mole.

(4) quality of gas under pressure (B1) is 1 to 20 with the ratio B1/B2 that gas generates the quality (B2) of agent.B1/B2 preferably is 3 to 15, and more preferably is 4 to 40.

When B1/B2 was not less than 1, the delay that aerator interior pressure raises was prevented, and when B1/B2 was not more than 20, the excessive rising of aerator interior pressure was prevented.

The quality of gas under pressure (B1) is 5 to 80g, preferably is 5 to 60g, more preferably is 10 to 60g.The quality (B2) that gas generates agent is described among the technical qualification (5).

(5) to generate the quality of agent be 0.5 to 30g to gas.The amount that gas generates agent preferably is 1 to 20g, and more preferably is 1 to 10g.

(6) stowing pressure of gas under pressure is 30000 to 67000kPa.The stowing pressure of gas under pressure preferably is 35000 to 60000kPa, and more preferably is 40000 to 60000kPa.

When stowing pressure is not less than 30000kPa, can guarantee to be enough to gas volume for airbag aeration.When stowing pressure is not more than 67000kPa, even generate owing to gas under the situation that the burning of agent raises at aerator interior pressure, also can obtain the withstand voltage ultimate value of aerator and the enough differences between the aerator interior pressure, make that the scope of control aerator interior pressure is widened.

The present invention's (III-1) aerator has reached technical qualification (1) to (6), and each technical qualification is related each other.When initial stowing pressure was 60000kPa, the whole size of aerator can reduce at most about 50 capacity % by reducing width or diameter and length, so that do not change the resistance to pressure of aerator.

Secondly, the present invention's (III-1) aerator reaches technical qualification (1) to (6), and can be by the interrelated effect of every technical qualification, and compared with prior art, aerator interior pressure more accurately and in more narrower scope is controlled.Reason for this reason, gas can be easy to control from the time of aerator discharging, and the inflation of air bag and developing time can be easy to regulate.

In the present invention (III-1), preferably be that the combustion flame temperature that gas generates agent is not higher than 3000 ℃ in technical qualification (2).The theoretical value of flame temperature when so-called combustion flame temperature refers to gas generation agent burning, and it draws by Theoretical Calculation.

When the combustion flame temperature that generates agent when gas became too high, burning gas temperature had just uprised, and that the gas under pressure temperature also becomes is too high.Thereby the internal pressure of aerator raises, and the temperature that flows to the gas of air bag has also uprised.But, this problem is prevented by combustion flame temperature is set at below the said temperature.

In addition, if combustion flame temperature is above 3000 ℃, optimum value (central value) skew in the numerical range in technical qualification (3) to (6) and the following technical qualification (7) makes because the airbag aeration effect that gas generation agent combustion gases cause has reduced, and therefore, aerator utilizes the function of gas under pressure and combustion gases to disappear simultaneously.

In addition, combustion flame temperature is particularly relevant to technical qualification and asks (5).When aerator is activated and gas under pressure when being discharged from aerator exterior, aerator interior is depressurized, and makes temperature descend and internal pressure descends.Particularly, because combustion flame temperature is lower than 3000 ℃, the situation that may occur is, Yin Wendu descends that the pressure of the aerator that causes descends and the low gaseous emission speed that causes will spend the too much time to be used to discharge all gas.But, be set at by the lower value that gas is generated the amount of agent and be no less than 1g, can prevent that internal pressure from owing to the temperature of aerator interior descends the internal pressure of aerator (that is can control), making to make airbag aeration in Best Times.In addition, be set at by the lower value that gas is generated dosage and be no less than 1g, can control as described above beyond the internal pressure of aerator, and can supply with to making the required gas volume of airbag aeration.Higher limit is the numerical value that obtains by the volume of considering used usually aerator.

Combustion flame temperature comparatively preferably is not to be higher than 2500 ℃, and more preferably be not to be higher than 2200 ℃.Preferably be that the lower value of combustion flame temperature is 900 ℃.

In the present invention (III-1) etc., preferably be that to generate agent be that non-azide gas generates agent to gas in technical qualification (2).

In addition, the present invention's every inventions such as (III-1) preferably reaches technical qualification (7), make gas under pressure amount (mole number) (A1) with gas generate agent total surface area (centimetre ²) (C) ratio A1/C is 0.004 to 0.05 mole/centimetre ²A1/C comparatively preferably is 0.004 to 0.04 mole/centimetre ², and more preferably be 0.004 to 0.03 mole/centimetre ²

When A1/C is not less than 0.004 mole/centimetre ²The time, the ratio that the amount of gas under pressure and gas generate agent falls in the suitable scope, thereby and has prevented the delay that aerator interior pressure raises.(in addition, can prevent that aerator is owing to the excessive rising of aerator interior pressure is broken).When A1/C is not higher than 0.05 mole/centimetre ²The time, the ratio that the amount of gas under pressure and gas generate agent falls in the suitable scope, thereby and has prevented the excessive rising (in addition, having prevented the delay that aerator interior pressure raises) of aerator interior pressure.

The total surface area of gas generation agent (centimetre ²) (C) preferably be 10 to 150 centimetres ², comparatively preferably be 20 to 120 centimetres ², and more preferably be 30 to 100 centimetres ²

In addition, the present invention (III-1) etc. has preferably reached technical qualification (8), make gas generate the total surface area of agent (centimetre ²) (C) with the total area of venting hole (centimetre ²) (E) ratio C/E is 0.5 to 4.C/E preferably is 0.5 to 3.5, and more preferably is 0.5 to 3.0.

When C/E was not less than 0.5, the gas under pressure of whole fill was just discharged when the burning of gas generation agent is finished, and the burning that makes gas generate agent is stablized.When C/E was not more than 4, the interior pressure of aerator was maintained in the suitable scope, and therefore, did not have aerator disruptive possibility.

The total area of venting hole (centimetre ²) (E) preferably be 5 to 100 centimetres ², comparatively preferably be 10 to 80 centimetres ², and more preferably be 15 to 60 centimetres ²

The numerical range of each independent technical qualification of representing with A1, A2, B1, B2, C and E is the numerical ranges that are suitable under each independent technique condition situation, and the scope of the ratio under the situation of each technical qualification of combination and the numerical range of each independent technical qualification may not correspond to each other.Such as, the lower value of the lower value of A1 or higher limit and A2 or the ratio of higher limit may be not match with lower value or the higher limit of A1/A2.In order to address this problem by the present invention, numerical value can be selected from the numerical range (A1, A2 etc.) of every technical qualification with a certain expected value within acquisition ratio range under the situation of the every technical qualification of combination (A1, A2 etc.).

In the present invention (III-1), aerator has a gas under pressure chamber, and wherein a shell forms also filling with gas under pressure by round shape gas under pressure chamber housing, and the external diameter of gas under pressure chamber housing preferably is 40mm or littler.The external diameter of gas under pressure chamber housing comparatively preferably is not more than 35mm, and more preferably is not more than 30mm.

Among the present invention (III-1) etc., aerator has a gas under pressure chamber, wherein a shell forms also filling with gas under pressure by round shape gas under pressure chamber housing, and the ratio (L/D) of the external diameter (D) of gas under pressure chamber housing and length (L) preferably is 1 to 10, and comparatively preferably is 2 to 10.

Preferably be, among the present invention (III-1) etc., aerator has a gas under pressure chamber, wherein a shell form by round shape gas under pressure chamber housing and filling with gas under pressure, and gas under pressure chamber housing is being symmetric axially and radially.

By making gas under pressure chamber housing symmetry, when assembling, needn't determine its orientation, improved the manufacturing convenience.

Preferably be, among the present invention (III-1) etc., aerator has a gas under pressure chamber, wherein a shell constitute by round shape gas under pressure chamber housing and filling with gas under pressure, and gas under pressure chamber housing is being symmetric axially and radially, and the diameter of its both end sides dwindles." diameter of both end sides dwindles " refers to and does less than the diameter of its other part at the diameter at place, the two ends of gas under pressure chamber housing.

By making gas under pressure chamber housing symmetry, when assembling, needn't determine its orientation, improved the manufacturing convenience.Secondly,, can become easily, particularly, be suitable under the situation of resistance welding connection and improved the manufacturing convenience with the operation that is connected of other members when the two ends diameter is when dwindling.

Preferably be, among the present invention (III-1) etc., aerator has a gas under pressure chamber, wherein a shell constitutes also filling with gas under pressure by round shape gas under pressure chamber housing, and a gas under pressure pack hole is formed on the side surface of gas under pressure chamber housing, and this hole gives shutoff by a pin after the filling gas under pressure.

Because the gas under pressure pack hole forms in this way and by the pin shutoff, other members can be connected in the both end sides of gas under pressure chamber housing.

Preferably be, among the present invention (III-1) etc., pin puts in gas under pressure chamber housing, and the length that its extension has makes gas generate the combustion gas flowing bump extension of agent.By taking a kind of like this scheme, can make the combustion residue bump and adhere to pin, make combustion residue to be captured.

Preferably be, among the present invention (III-1) etc., aerator has a gas under pressure chamber, wherein a shell constitute by round shape gas under pressure chamber housing and filling with gas under pressure; One producer gas generator, wherein a shell is made of gas generator shell and puts portfire and gas and generates agent; And a diffusion part, wherein,

Gas generator shell is connected in an end of gas under pressure chamber housing and diffusion part is connected in the other end of gas under pressure chamber housing, and

Can break between plate sealing and gas under pressure chamber and the diffusion part by the second plate sealing of can breaking by first between gas under pressure chamber and the producer gas generator.

Preferably be, among the present invention (III-1) etc., one its side surface and end surface in the two one of at least on, particularly the side surface block that is provided with the gas squit hole covers first plate that can break from gas under pressure chamber one side.By such block is set, strengthened capture effect for combustion residue.

Preferably be, among the present invention (III-1) etc., gas generator shell and gas gas under pressure chamber housing, and diffusion part is connected by resistance welding with gas under pressure chamber housing.

Preferably be that among the present invention (III-1) etc., the external diameter of gas under pressure chamber housing, gas generator shell and diffusion part is equal to each other or is approximate.

In the present invention (III-15), aerator has a gas under pressure chamber, and wherein a shell constitutes also filling with gas under pressure by round shape gas under pressure chamber housing; One producer gas generator, wherein a shell is made of gas generator shell and puts portfire and gas generation agent, and a diffusion part, wherein,

Gas generator shell is connected in an end of gas under pressure chamber housing, and diffusion part is connected in the other end of gas under pressure chamber housing, and

Can break between plate sealing and gas under pressure chamber and the diffusion part by the second plate sealing of can breaking by first between gas under pressure chamber and the producer gas generator, and the external diameter of gas under pressure chamber housing, gas generator shell and diffusion part is equal to each other or approximate.

This is the aerator that a kind of wherein air bag is inflated with gas under pressure, and gas under pressure is filled in the gas under pressure chamber with the shell that is made of round shape gas under pressure chamber housing,

Wherein gas under pressure chamber housing is being symmetric axially and radially, and the diameter at its two ends dwindles.

" diameter of both end sides dwindles " refers to and does less than the diameter of its other part at the diameter at place, the two ends of gas under pressure chamber housing.

By making gas under pressure chamber housing symmetry, when assembling, needn't determine orientation, improved the manufacturing convenience.Secondly, diameter dwindles when two ends, can make with the operation that is connected of other members to become easily, particularly, has improved the manufacturing convenience under the situation that suitable resistance welding connects.

Preferably be that in the present invention (III-15), a kind of aerator adopts the combustion gases that obtain by burning gas generating agent together with the inflation means of gas under pressure as air bag, wherein

Aerator has a gas under pressure chamber, and wherein a shell constitutes also filling with gas under pressure by round shape gas under pressure chamber housing; One is used to generate the producer gas generator of combustion gases; And the diffusion part with venting hole, and gas under pressure chamber housing is symmetric at axial-radial, and the diameter of its both end sides dwindles.

Preferably be, in foregoing invention, the shell of producer gas generator is made of gas generator shell and puts portfire and gas and generates agent,

Gas generator shell is connected in an end of gas under pressure chamber housing and diffusion part is connected in the other end of gas under pressure chamber housing, and

Can break between plate sealing and gas under pressure chamber and the diffusion part by the second plate sealing of can breaking by first between gas under pressure chamber and the producer gas generator.

In this invention, the combustion gases that produce in producer gas generator flow into the gas under pressure chamber at first plate that can break after being broken, and after this, combustion gases are discharged from by the venting hole from diffusion part after breaking at second plate that can break together with gas under pressure, thereby are airbag aeration.

Preferably be that in the invention described above, one or two group in gas generator shell and gas under pressure chamber housing group and diffusion part and the gas under pressure chamber housing group is connected by resistance welding.

Preferably be, in the present invention (III-15), aerator only utilizes the inflation means of gas under pressure as air bag basically, and

Aerator comprises a gas under pressure chamber, and wherein a shell constitutes also filling with gas under pressure by round shape gas under pressure chamber housing; And a diffusion part, it is connected in presses the gas compartment shell and has venting hole, is enclosed in the plate that can break of one between gas under pressure chamber and the diffusion part, and is received within the diffusion part lighter for ignition that causes apparatus for breaking as the plate that can break.

Gas under pressure chamber housing is being symmetric axially and radially, and the diameter at its two ends dwindles.

In this invention, the plate that can break is broken because of the startup of lighter for ignition (a kind of electrical igniter of being furnished with priming charge), and gas under pressure is discharged from from the venting hole of diffusion part, thereby is airbag aeration.The combustion gases of the priming charge that produces by initial igniter have only slight amount, but the combustion gases of this slight amount itself do not participate in the inflation of air bag basically, make the inflation means gas under pressure just basically of air bag.

Preferably be, in foregoing invention, be provided with the round shape venting port sheet material of the venting hole that is connected in diffusion part, this venting port sheet material be mounted to coincide with gas under pressure chamber housing axially, and pass venting port sheet material and discharge so that be airbag aeration from the aperture that is arranged on the venting port sheet material from the gas under pressure that venting hole is discharged.

By such venting port sheet material is set, the axial of gas under pressure chamber housing overlaps each other with the emission direction of gas under pressure, and axially overlapping each other with the inflation direction of air bag of gas under pressure chamber housing makes that the installation of air bag is more easy.

Preferably be that in foregoing invention, diffusion part is connected by resistance welding with gas under pressure chamber housing.

In addition, the present invention (III-22) provide a kind of gas-bag system, comprises the initiating signal take-off equipment with a shock transducer and a control unit; And the module housing that wherein puts above-mentioned various aerator and air bag.

The present invention (III-22) is the aerator of a kind of wherein air bag by utilizing gas under pressure to be inflated, gas under pressure is filled in the gas under pressure chamber with the shell that is made of round shape gas under pressure chamber housing, gas under pressure chamber housing is about being symmetric axially and radially, and the diameter at its two ends dwindles, just gas under pressure is used as the inflation means of air bag basically, wherein

Aerator comprises that one has the gas under pressure chamber of the shell that is made of round shape gas under pressure chamber housing, and is filled in the gas under pressure within the gas under pressure chamber; Be connected in the gas under pressure chamber and have the diffusion part of venting hole; Be enclosed in the broken plate between gas under pressure chamber and the diffusion part; And be received within the diffusion part the lighter for ignition that causes apparatus for breaking as the plate that can break,

Gas under pressure chamber housing is being symmetric axially and radially, and the diameter at its two ends dwindles.

Be provided with a round shape venting port sheet material, be connected in the venting hole of diffusion part, this venting port sheet material is mounted to and coincides with the axial of gas under pressure chamber housing, and passes venting port sheet material and think airbag aeration from the aperture discharge that is arranged on the venting port sheet material from the gas under pressure that venting hole is discharged, and

Diffusion part is connected by resistance welding with gas under pressure chamber housing.

Preferably be, being used for gas among this invention, to generate agent be that non-azide gas generates agent, and gas generate agent can determining in conjunction with gas under pressure composed as followsly.

Generate agent as gas, such as, comprise fuel and oxygenant, perhaps fuel, oxygenant and slag form agent, mix with wedding agent when needing, and make required shape.If adopt a kind of like this gas to generate agent, this generates gas that agent generates and can be used from together with pressure medium one and make airbag aeration and expansion by burning.Especially, when employing comprised the gas generation agent of slag formation agent, residue formed easily, feasible can the minimizing widely from the amount of the vaporific combustion residue of aerator discharge.But, under the less situation of the amount of the residue that uses a small amount of gas generation agent amount of fill and generation, essential use slag forms agent.

The example of fuel can be to be selected from a kind of in pyrrolotriazine derivatives, terazole derivatives, triazole derivative, guanidine derivative, azodicarbonamide derivative and the hydrazine derivative or at least two kinds.

As pyrrolotriazine derivatives, its can be selected from following a kind of or at least two kinds: triazine (1,2, the 3-triazine; 1,2, the 4-triazine; 1,3,5-triazine), melamine, trihydrazinotriazine, tri methylol melamine, alkylated methylol melamine, such as the perchlorate of the nitrate of cyanuric acid derivatives such as cyanurodiamide, melon, cyanuric acid or cyanurate, melam, melem, melamine, melamine and such as nitro melamine compounds such as dinitrobenzene melamines.

The example of terazole derivatives, triazole derivative, azodicarbonamide derivative and hydrazine derivative can be to be selected from a kind of in following or at least two kinds: 5-oxo-1,2,4-triazole, tetrazolium, 5-amino tetrazole, 5,5 '-two-1H-tetrazolium, biuret, azodicarbonamide, carbohydrazide, carbohydrazide nitrate complex compound, oxalic acid two hydrazides and nitric acid hydrazides complex compound

The example of guanidine derivative can be to be selected from a kind of in following or at least two kinds: nitroguanidine (NQ), Guanidinium nitrate (GN), Guanidinium carbonate, amino nitroguanidine, amino guanidine nitrate, carbonic acid aminoguanidine, nitric acid Imidocarbonic acid dihydrazide, carbonic acid Imidocarbonic acid dihydrazide, nitric acid triaminoguanidine etc.

As oxygenant, the preferred use is selected from a kind of in strontium nitrate, saltpetre, ammonium nitrate, potassium perchlorate, cupric oxide, ferric oxide, the basic copper nitrate or at least two kinds.

Form agent as slag, the preferred use is selected from a kind of in following or at least two kinds: acid clay, talcum, wilkinite, diatomite, kaolin, silica, alumina, water glass, silicon nitride, silicon carbide, hydrotalcite and their mixture.

As wedding agent, preferred a kind of in sodium salt, Natvosol, starch, polyvinyl alcohol, guar gum, Microcrystalline Cellulose, polyacrylamide and the calcium stearate that is selected from carboxymethyl cellulose or at least two kinds of using

Be used in that gas among the present invention generates that agent can comprise in mass that 20 to 60% nitroguanidine acts as a fuel and 80 to 40% oxygenant in mass, and preferably be, in mass 30 to 40% nitroguanidine act as a fuel and in mass 70 to 60% strontium nitrate as oxygenant.In addition, wedding agent (Xylo-Mucine or analogue) and slag formation agent (acid clay or analogue) can be mixed in addition in fuel and oxygenant.In the case, preferably be, fuel is in mass 20 to 60%, and oxygenant is in mass 40 to 65%, wedding agent is in mass 3 to 12% (preferably be in mass 4 to 12%), and slag to form agent be in mass 1 to 20% (preferably be in mass 3 to 7%).

According to aerator of the present invention, aerator can be that fill-up compact and portable and that guarantee gas under pressure equals in traditional aerator approx.In addition in the case, the internal pressure of aerator can suitably be controlled when starting, and makes that the inflation performance of air bag is kept in the best condition.

Description of drawings

Fig. 1 is the axial sectional view of an aerator;

Fig. 2 is the axial sectional view of an aerator;

Fig. 3 is the axial sectional view of an aerator;

Fig. 4 is the axial sectional view of an aerator;

Fig. 5 is skeleton view and the plan view that is used for a block of aerator;

Fig. 6 is the skeleton view that is used for a block of aerator;

Fig. 7 is the axial sectional view of an aerator;

Fig. 8 is the axial sectional view of an aerator;

Fig. 9 is the axial sectional view of an aerator;

Figure 10 is the axial sectional view of an aerator;

Figure 11 is the axial sectional view of an aerator;

Figure 12 is the axial sectional view of an aerator;

Figure 13 is the axial sectional view of an aerator;

Figure 14 is the axial sectional view of an aerator;

Figure 15 is the axial sectional view of an aerator;

Figure 16 is the axial sectional view of an aerator;

Figure 17 is the axial sectional view of an aerator;

Figure 18 is the axial sectional view of an aerator;

Figure 19 is the axial sectional view of an aerator;

Figure 20 is the axial sectional view of an aerator;

Figure 21 is the axial sectional view of an aerator;

Figure 22 is the jar curve that obtains in one 60 liters of jar combustion tests that carries out in example 1.

Embodiment

Reference numeral in the explained later accompanying drawing:

10 aerators

Pressure medium chambers 20 or gas under pressure chamber

22 pressure medium chamber housings or gas under pressure chamber housing

30 producer gas generators

32 gas generator shells

35 kinks;

34 lighter for ignitions;

36 gases generate agent;

40 first plates that can break;

42 gas squit holes;

44 blocks;

48 kinks;

50 diffusion parts;

51 blind end surfaces;

52 venting holes;

58 second plates that can break

Embodiments of the invention [I]

Embodiment 1

An embodiment is illustrated with reference to Fig. 1.Fig. 1 is the sectional view of an aerator on it is axial.

Aerator 10 comprises a pressure medium chamber 20, a producer gas generator 30 and a diffusion part 50.

Pressure medium chamber 20 has a shell, constitutes the pressure medium that also filling comprises the mixture of argon and helium by round shape pressure medium chamber housing 22.Since pressure medium chamber housing 22 its axially and the footpath upwards make symmetric, so needn't when assembling, be adjusted at axially the orientation that makes progress with the footpath.

The pack hole 24 of pressure medium is formed on the side surface of pressure medium chamber housing 22, and uses pin 26 shutoff after the filling pressure medium.The distal portion 26a of pin 26 puts in pressure medium chamber 20, and its extension has the combustion gas flowing that such length makes gas generate agent and clashes into this extension.By adjusting the length of pin 26 extensions, combustion gases can clash into pin 26 so that combustion residue adheres to pin 26.In Fig. 1, pin 26 can be stretched over till its distal portion reclines the wall surface 22a on opposite.

Producer gas generator 30 comprises that portfire (a kind of electrical igniter) 34 gases that are received among the gas generator shell 32 generate agent 36, and it is connected in an end of pressure medium chamber 20.Gas generator shell 32 is connected at connection section 49 places by resistance welding with pressure medium chamber housing 22.In the time of among aerator 10 is assembled into gas-bag system, portfire 34 is connected in external power source via a connector and lead.

Gas generates agent 36 and can comprise such as 34% nitroguanidine in mass and acting as a fuel, in mass 56% strontium nitrate as oxygenant and in mass 10% Xylo-Mucine as wedding agent (gaseous emission temperature: 700 to 1630 ℃).The combustion residue that generates when the gas of above composition generates agent 36 burnings is strontium oxide (fusing point: 2430 ℃).That reason for this reason, combustion residue are cured as bulk (scoriform) rather than melted state.

First communicating aperture 38 between pressure medium chamber 20 and the producer gas generator 30 is sealed by first plate 40 that can break, and the latter is owing to the pressure of pressure medium becomes bowl shape, and the inside of producer gas generator 30 remains under the normal pressure.The first plate 40 usefulness method for resistance welding that can break are welded in gas generator shell 32 at peripheral edge portion 40a place.

Block 44 with gas squit hole 42 from the pressure medium chamber 20 1 side cover caps live first plate 40 that can break.Block 44 installings are used for covering first plate 40 that can break, and make because gas generates the combustion gases that the burning of agent 36 generates always sprays from gas squit hole 42 via block 44.

Block 44 has by the flange part 46 of outside bending aperture peripheral edge portion formation and by a part (kink) 48 bendings that make gas generator shell 32 at flange part 46 places to be fixed.

Having diffusion part 50 that venting hole 52 is used to discharge pressure medium and combustion gases, to be connected in another of pressure medium chamber 20 distolateral, and diffusion part 50 and pressure medium chamber housing 22 usefulness method for resistance welding are welded to one another at connection section 54 places.If necessary, the strainer of being made by wire cloth can be arranged within the diffusion part 50 so that capture combustion residue.

Second communicating aperture 56 between pressure medium chamber 20 and the diffusion part 50 is sealed by second plate 58 that can break, the latter is owing to the pressure of pressure medium becomes bowl shape, and the inside of diffusion part 50 remains under the normal pressure, and the second plate 58 usefulness method for resistance welding its outer edges portion 58a places of can breaking are welded in diffusion part 50.

Below, explanation is fitted in operation under the situation of the gas-bag system that is installed on automobile at the aerator 10 that is shown in Fig. 1.

When automobile was subjected to impacting because of collision, lighter for ignition 34 was started by the initiating signal take-off equipment and is lighted with burning gas generating agent 36, thereby generated high-temperature combustion gas.At this moment, generate the gas purging temperature that agent 36 produces because the fusing point of the combustion residue that the burning of gas generation agent 36 produces is higher than gas, therefore, combustion residue almost can not melt, and remains on solid-state.

Thereafter, first can break plate 40 because the pressure in the producer gas generator 30 that high-temperature combustion gas causes raise and broken, and comprises that the combustion gases of combustion residue flow into block 44 so that from 42 ejections of gas squit hole.At this moment, because the temperature difference between the combustion gases in pressure medium and the pressure medium chamber 20 is very big, combustion gases are cooled off rapidly, make the high-temp combustion residue be cooled and curing and combustion residue also adhere on the inner wall surface of block 44 end surface 44a.Also have, because the inwall 22a of the combustion gases of ejection bump pressure medium chamber housing 22, combustion residue adheres to inner wall surface and to be difficult to be discharged from aerator 10.Point out that in passing remaining combustion residue of part also adheres on the pin 26.

After this, because second plate 58 that can break broken because of the pressure in the pressure medium chamber 20 raise, pressure medium and combustion gases are discharged and to airbag aeration from each venting hole 52 via second communicating aperture 56.

In a kind of like this operation process, because aerator 10 presents above-mentioned various effect and effectiveness (1) to (3), the combustion residue that enters air bag has been restrained by these interactions basically.In the mensuration of a reality, be not provided with therein under the situation of aerator of block 44 structure shown in Figure 1, the combustion residue that is discharged into aerator 10 outsides is 700mg, it can be reduced to 200mg but adopt structure shown in Figure 1.Secondly, shown among Fig. 2,, can further improve capture performance to combustion residue by block 64 being set in second plate 58 1 sides of can breaking.Reference numeral 62 expression gas squit holes, Reference numeral 68 expression flange parts 64 can be fixed in diffusion part 50 by flange part 68 and kink 59 and block a shot.

Embodiment 2

Another embodiment is illustrated with reference to Fig. 3.Fig. 3 is the sectional view of an aerator on it is axial.Be shown in aerator 100 among Fig. 3 and have almost and the same structure of aerator 10 that is shown among Fig. 1, and in Fig. 3, represent same component with those the same Reference numerals among Fig. 1.Difference and because the difference of the advantageous effects aspect of the generation that this structural difference causes structurally with Fig. 1 will be described below.

In the aerator 100 among being shown in Fig. 3, the inner-wall surface 22a of pressure medium chamber housing 22 has the groove that the continuous in a circumferential direction or interrupted degree of depth that forms is about 0.2mm.With this, the combustion residue in the combustion gases tangled with collecting within groove, except beneficial effect (1) to (3), can also present beneficial effect (4).Secondly, shown among Fig. 2, can adopt the scheme that block 64 wherein is set.

Embodiment 3

Another embodiment is illustrated with reference to Fig. 4.Fig. 4 is the sectional view of an aerator on it is axial.Be shown in aerator 200 among Fig. 4 and have almost and the same structure of aerator 10 that is shown among Fig. 1, and in Fig. 4, represent same component with those the same Reference numerals among Fig. 1.Difference and because the beneficial effect that this structural difference produces structurally with Fig. 1 will be described below.

In the aerator 200 among being shown in Fig. 4, each gas squit hole 42 is arranged on block 44 the side surface and opening is done to such an extent that combustion gases are sprayed to producer gas generator 30.With this, from the combustion gases of each gas squit hole 42 ejections bump kink 48 before the inner wall surface 22a of its bump pressure medium chamber housing 22 and near, and therefore, present except the beneficial effect (5) of beneficial effect (1) to 3.Point out in passing, when the scheme among being shown in Fig. 3 is used for the inner wall surface 22a of pressure medium chamber housing 22, can also present beneficial effect (4).In addition, shown among Fig. 2, can adopt the scheme that block 64 wherein is set, and the block 44 of another embodiment can be used for replacing block 64.

Embodiment 4

Another embodiment is illustrated with reference to Fig. 5 to Fig. 7.Fig. 5 is the skeleton view and the plan view of the block of an embodiment.Fig. 6 is the skeleton view and the plan view of the block of another embodiment, and Fig. 7 is the skeleton view of the block of another embodiment.Be shown in block 44 among Fig. 5 to Fig. 7 and can be set to the aerator 10,100 and 200 that is shown among Fig. 1, Fig. 3 and Fig. 4 respectively, and in the aerator among being shown in Fig. 2, block 64 can have the shape that is shown among Fig. 5 to Fig. 7.

In the block 44 among being shown in Fig. 5, each gas squit hole 42 is arranged on the side surface of block 44a, and member (confining member) 45 is used for making injection direction from the combustion gases of each gas squit hole 42 in the circumferential upper limit.Confining member 45 forms to such an extent that be the L letter shapes on plan view.Point out that in passing the orientation of confining member 45 can be and the different direction of direction among Fig. 5.

Owing to be provided with this confining member 45, from the combustion gases of gas squit hole 42 ejections along the direction ejection of the peripheral surface of block 44 and form eddy current, make except beneficial effect (1) to (3), also can present beneficial effect (5).Point out in passing, when the shape among being shown in Fig. 3 can be used for the inner wall surface 22a of pressure medium chamber housing 22, can present beneficial effect (4) in addition.

Be shown in that block 44 among Fig. 6 is provided with flat confining member 45 but not the confining member 45 that is shown in the L letter shape among Fig. 5, and can obtain with Fig. 5 in those same beneficial effects.

Its end surface of the block 44b that is shown among Fig. 7 is provided with gas spray orifice 42, and is used for making member (confining member) 45 from the injection direction of the combustion gases of gas squit hole 42 in the circumferential upper limit.Confining member 45 can be made for and be shown in the same shape among Fig. 5 or Fig. 6.Employing be shown in the aerator of the block 44 among Fig. 7 can acquisition and Fig. 5 and Fig. 6 in those same beneficial effects.

Embodiment 5

Another embodiment is illustrated with reference to Fig. 8.Fig. 8 is the axial sectional view of an aerator.Be shown in aerator 300 among Fig. 8 and have almost and the same structure of aerator 10 that is shown among Fig. 1, and in Fig. 8, represent same component with those the same Reference numerals among Fig. 1.To be illustrated below with the difference of Fig. 1 difference structurally with the beneficial effect that produces owing to structural difference.

In the aerator 300 among being shown in Fig. 8, attaching has columnar barrier structure 310.Barrier structure 310 has one and forms the blind end of one with the end surface of block 44b, and the other end opens wide, and it makes to such an extent that sidewall 311 separates a certain distance ground with gas squit hole 42 on block 44a side surface and in the face of being provided with.Equally, shown among Fig. 2, can adopt the scheme that block 64 wherein is set, and further, can adopt the block 44 of another embodiment to replace blocking a shot 64.

Adopt a kind of like this barrier structure 310, the inwall from the combustion gases bump barrier structure sidewall 311 of gas squit hole 42 ejection then, flows out from the aperture.Whereby, except beneficial effect (1) to (3), can also present beneficial effect (6).Point out in passing, when the scheme among being shown in Fig. 3 is used for the inner wall surface 22a of pressure medium chamber housing 22, also can show beneficial effect (4).

Embodiment 6

Another embodiment is illustrated with reference to Fig. 9.Fig. 9 is the axial sectional view of an aerator.Be shown in aerator 400 among Fig. 9 and have almost and the same structure of aerator 10 that is shown among Fig. 1, and in Fig. 9, represent same component with those the same Reference numerals among Fig. 1.With Fig. 1 structurally difference and the difference on the beneficial effect that produces owing to structurally difference will be illustrated below.

In the aerator 400 among being shown in Fig. 9, attaching has discoid barrier structure 410.The end surface of barrier structure 410 and block 44b forms one and stretches to the inner wall surface 22a of pressure medium chamber housing 22 from block 44b end surface.Equally, shown among Fig. 2, can adopt the scheme that block 64 wherein is set, and further, can adopt the block 44 among another embodiment to replace blocking a shot 64.

Adopt a kind of like this barrier structure 410, from the combustion gases bump barrier structure 410 of gas squit hole 42 ejection, then, from the gap outflow between the peripheral edge portion 411 of the inner wall surface 22a of pressure medium chamber housing 20 and barrier structure.Whereby, except beneficial effect (1) to (3), can show beneficial effect (6).Point out in passing, when the scheme among being shown in Fig. 3 is used for the inner wall surface 22a of pressure medium chamber housing 22, also can further show beneficial effect (4).

Embodiment 7

Another embodiment is illustrated with reference to Figure 10.Figure 10 is the axial sectional view of an aerator.Be shown in aerator 500 among Figure 10 and have almost and the same structure of aerator 10 that is shown among Fig. 1, and in Figure 10, represent same component with those the same Reference numerals among Fig. 1.With Fig. 1 structurally difference and the difference on beneficial effect that produces owing to structural difference will be illustrated below.

In the aerator 500 among being shown in Figure 10, attaching has discoid barrier structure 510.Barrier structure 510 forms one with the end surface of block 44b, and stretches to the inner wall surface 22a of pressure medium chamber housing 22 from block 44b end surface, makes peripheral edge portion 511 abut in inner wall surface 22a.Current mouthful 512 of gas and have with Fig. 6 in those limiting devices 513 with analogous shape be arranged on the peripheral edge portion 511.Equally, shown among Fig. 2, can adopt the scheme that block 64 wherein is set, and further, can adopt the block 44 among another embodiment to replace blocking a shot 64.

Adopt a kind of like this barrier structure 510,, then, flow through current mouthful 512 of gas and limiting device 513 from the combustion gases bump barrier structure 510 of gas squit hole 42 ejections.Whereby, except beneficial effect (1) to (3), can present beneficial effect (6) and (5).Point out in passing, when the scheme among being shown in Fig. 3 is used for the inner wall surface 22a of pressure medium chamber housing 22, can present beneficial effect (4) in addition.

Aerator of the present invention can be used for various aerators, such as the airbag inflator that is used for driver's one side, be used for airbag inflator by passenger's one side of driver, be used for side collision airbag inflator, be used for the aerator of curtain-type air bag, the aerator that is used for kneepad, the aerator that is used for inflatable securing band is used for the aerator of piping, is used for the aerator of pretensioner etc.

Embodiments of the invention (II)

(1). embodiment 1

An embodiment is illustrated with reference to Figure 11.Figure 11 is the axial sectional view of an aerator.

Aerator 600 comprises a gas under pressure chamber 620, a producer gas generator 630 and diffusion part 650.

Gas under pressure chamber 620 has a shell, is constituted and be filled with the gas under pressure of the mixture that comprises argon and helium by round shape gas under pressure chamber housing 622.Since gas under pressure chamber housing 622 its axially and the footpath upwards do to such an extent that be symmetric, so needn't when assembling, be adjusted at axially the orientation that makes progress with the footpath.

The pack hole 624 of gas under pressure is formed in the side surface of gas under pressure chamber housing 622, and gives shutoff by pin 626 after the filling pressure medium.The distal portion 626a of pin 626 puts in gas under pressure chamber 620, and the combustion gas flowing that the length that its extension has makes gas generate agent clashes into this extension.By adjusting the length of pin 626 extensions, combustion gases can clash into pin 626 so that combustion residue adheres on the pin 626.In Figure 11, pin 626 can be stretched over till its distal portion 626a reclines the wall portion surface 622a on opposite.

Producer gas generator 630 has the portfire (electrical igniter) 634 that is received within the gas generator shell 632 and puts the gas generating chamber 635 that gas generates agent 636, and is connected in an end of gas under pressure chamber 620.Baffle plate 639 is arranged on gas generating chamber 635 the insides.

Gas generator shell 632 is connected at connection section 649 places by resistance welding with gas under pressure chamber housing 622.In the time of among aerator 600 is assembled into gas-bag system, portfire 634 is connected in external power source via junctor and lead.

Gas generates agent 636 and can comprise such as 34% nitroguanidine in mass and acting as a fuel, in mass 56% strontium nitrate as oxygenant and in mass 10% Xylo-Mucine as wedding agent (gaseous emission temperature: 700 to 1630 ℃).The combustion residue that generates when the gas of above composition generates agent 636 burnings is strontium oxide (fusing point: 2430 ℃).That reason for this reason, combustion residue are cured as bulk (scoriform) rather than melted state.

First communicating aperture 638 between gas under pressure chamber 620 and the producer gas generator 630 is sealed by first plate 640 that can break, and the inside of producer gas generator remains under the normal pressure.The first plate 640 usefulness method for resistance welding that can break are welded in gas generator shell 632 at the peripheral edge portion place.

It is distolateral that diffusion part 650 with the venting port 652 that is used to discharge gas under pressure and combustion gases is connected in another of gas under pressure chamber 620, is welded to one another and diffusion part 650 and gas under pressure chamber housing 622 usefulness resistance weldings are connected on connection section 654 places.Diffusion part 650 and gas generating chamber's housing 622 connect into and make their central axis overlap each other.

Diffusion part 650 is cap shapes, have that gas is worn and a plurality of venting ports 652 that cross, wherein the distance L between blind end surface 651 and the venting port that approaches blind end surface 651 most and satisfied following formula: the L 〉=D/2 of diameter D of the plate 658 (except the peripheral edge portion of welding) that can break.

Distance L preferably is 3 to 8mm, more preferably is 4 to 8mm, and especially preferably is 5 to 8mm.The diameter of a plurality of venting ports 652 preferably is 0.5 to 2mm, and more preferably is 0.5 to 1.2mm.Total orifice area of a plurality of venting ports 652 preferably is 20 to 1000mm ², and more preferably be 100 to 500mm ²

Second communicating aperture 656 between gas under pressure chamber 620 and diffusion part 650 is sealed by second plate 658 that can break, and the inside of diffusion part 650 remains under the normal pressure.The second plate 658 usefulness method for resistance welding that can break are welded in diffusion part 650 at its peripheral edge portion place.

Below, explanation is fitted to operation under the situation of the gas-bag system that is installed on automobile at the aerator 600 that is shown in Figure 11.

When automobile was subjected to impacting because of collision, lighter for ignition 634 was started by the initiating signal take-off equipment and is lighted with burning gas generating agent 636, thereby generated high-temperature combustion gas.At this moment, because the fusing point that generates the combustion residue that the burning of agent 636 generates because of gas generates the gas purging temperature that agent 636 generates greater than gas, so combustion residue almost can not melt and keep solid-state.

After this, first can break plate 640 because of in the producer gas generator 630 because the pressure that high-temperature combustion gas causes raises is broken, and the combustion gases that comprise combustion residue flow to gas under pressure chamber 620.

At this moment, because gas under pressure and the temperature head between the combustion gases among the gas under pressure chamber 620 are very big,, make the high-temp combustion residue be cooled and solidify so combustion gases are cooled off rapidly.And, because combustion gases also clash into the inwall 622a of gas under pressure chamber housing 622, so combustion residue adheres to its inner wall surface and can be discharged from aerator 600 hardly.Point out that in passing the remaining combustion residue of part also can adhere on the pin 626.

After this, because second can break plate 658 because the pressure in the gas under pressure chamber 620 raise and broken, gas under pressure and combustion gases all are discharged out with to airbag aeration from venting hole 652 via second communicating aperture 656.

At this moment, since combustion gases and gas under pressure after closed end surface 651 that in a single day they clash into diffusion part 650 is with the flow direction that changes them from venting port 652 outflows, so within foreign matter can easily be retained in from closed end surface 651 to the pocket recess of venting hole 652 near it.And, because above effect is set at the maximum length (D/2) of foreign matter material or bigger by the degree of depth (L) with pocket recess, so the foreign matter material is more prone to retention.Because gas is discharged via diffusion part 650 in this way, the foreign matter material is removed.

In a kind of like this operation process, because aerator 600 presents above-mentioned beneficial effect (IIa) to (IIc), (1) to (3), the amount that enters the breakage of broken plate of air bag or combustion residue relies on these interactions and is suppressed basically.

(2) embodiment 2

An embodiment is illustrated with reference to Figure 12.Figure 12 is the axial sectional view of an aerator.Because the aerator that is shown among Figure 12 and Figure 11 is only differing from one another aspect the diffusion part part-structure, same component are with same Reference numeral and its explanation will be omitted.

The aerator 700 that is shown among Figure 12 is provided with the column bolt 660 that uses at the far-end of diffusion part 650 when aerator is installed on module housing.

Be shown in aerator 700 among Figure 12 according to the effect emission gases same and carry out same operation with being shown in aerator 600 among Figure 11.

(3) embodiment 3

An embodiment is illustrated with reference to Figure 13.Figure 13 is the sectional view of an aerator on it is axial.

Aerator 10 comprises a gas under pressure chamber 20, a producer gas generator 30 and a diffusion part 50.

Gas under pressure chamber 20 has the shell that is made of round shape gas under pressure chamber housing 22 and the filling gas under pressure with the mixture that comprises argon and helium.Since gas under pressure chamber housing 22 its axially and the footpath upwards make symmetric, so needn't when assembling, adjust axially the orientation that makes progress with the footpath.

The aeration aperture 24 of gas under pressure is formed on the side surface of gas under pressure chamber housing 22, and gives shutoff by pin 26 after charging into gas under pressure.The distal portion 26a of pin 26 puts in gas under pressure chamber 20, and the combustion gas flowing that the length that its extension has makes gas generate agent can clash into this extension.By adjusting the length of pin 26 extensions, combustion gases can clash into pin 26 so that combustion residue adheres on the pin 26.In Figure 13, pin 26 can be stretched over till its distal portion 26a reclines the wall surface 22a on opposite.

Producer gas generator 30 comprises that portfire (electrical igniter) 34 and the gas that is received within the gas generator shell 32 generate agent 36, and it is connected in an end of pressure medium chamber 20.Gas generator shell 32 and gas under pressure chamber housing 22 couple together at connection section 49 places by resistance welding.When aerator 10 was assembled in the gas-bag system, portfire 34 was connected in external power source via junctor and lead.

Gas generate agent 36 can comprise such as 34% nitroguanidine in mass act as a fuel, 56% strontium nitrate is as oxygenant in mass, and in mass 10% Xylo-Mucine as wedding agent (gaseous emission temperature: 700 to 1630 ℃).The combustion residue that generates when the gas of above composition generates agent 36 burnings is strontium oxide (fusing point: 2430 ℃).That reason for this reason, combustion residue are cured as bulk (scoriform) rather than melted state.

First communicating aperture 38 between gas under pressure chamber 20 and producer gas generator 30 is sealed by first of the bowl shape plate 40 that can break, and the inside of producer gas generator 30 remains under the normal pressure.The first plate 40 usefulness resistance weldings that can break are connected on peripheral edge portion 40a place and are welded in gas generator shell 32.

Block 44 with gas squit hole 42 covers first plate 40 that can break from gas under pressure chamber 20 1 sides.Block 44 installings are used for covering first plate 40 that can break, and make because gas generates combustion gases that agent 36 burnings generate always 44 sprays from gas squit hole 42 via blocking a shot.

Block 44 blind end surface 44b with near satisfied following formula: the L1 〉=D1/2 of diameter D1 of the distance L 1 between the gas squit hole 42 of blind end surface 44b and the plate 40 (except the peripheral edge portion of welding) that can break.

Distance L 1 preferably is 3 to 8mm, more preferably is 4 to 8mm, and especially preferably is 5 to 8mm.The diameter of many gas squit holes 42 preferably is 0.5 to 2mm, and more preferably is 0.5 to 1.2mm.Total orifice area of a plurality of gas squit holes 42 preferably is 20 to 1000mm ², and more preferably be 100 to 500mm ²

Block 44 has the flange part of making by the peripheral edge portion in outside bending aperture 46, and it is by being fixed in the part (kink) 48 of flange part 46 places bending gas generator shell 32.

It is distolateral that diffusion part 50 with the venting hole 52 that is used to discharge gas under pressure and combustion gases is connected in another of gas under pressure chamber 20, and diffusion part 50 and gas under pressure chamber housing 22 usefulness method for resistance welding are welded to one another at connection section 54 places.

Diffusion part 50 is cap shapes, have that gas is worn and a plurality of venting ports 52 that cross, wherein the distance L 2 between blind end surface 51 and the venting port that approaches blind end surface 51 most and satisfied following formula: the L2 〉=D2/2 of diameter D2 of the plate 58 (except the peripheral edge portion of welding) 58 that can break.

Distance L 2 preferably is 3 to 8mm, more preferably is 4 to 8mm, and especially preferably is 5 to 8mm.The diameter of a plurality of venting ports 52 preferably is 0.5 to 2mm, more preferably is 0.5 to 1.2mm.Total orifice area of a plurality of venting ports 52 preferably is 20 to 1000mm ², and more preferably be 100 to 500mm ²

Second communicating aperture 56 between gas under pressure chamber 20 and diffusion part 50 is sealed by second plate 58 that can break, and the inside of diffusion part 50 remains under the normal pressure.The second plate 58 usefulness method for resistance welding that can break are welded in diffusion part 50 at circumferential outer edge portion 58a place.

Below, the aerator 10 of explanation in being shown in Figure 13 is fitted to the operation under the situation of the gas-bag system that is installed on automobile.

When automobile was subjected to impacting owing to collision, lighter for ignition 34 was started by the initiating signal take-off equipment and is ignited with burning gas generating agent 36, thereby generated high-temperature combustion gas.At this moment, the fusing point of the combustion residue that generates owing to burning because of gas generation agent 36 is higher than gas and generates the gas purging temperature that agent 36 generates, so combustion residue almost can not melt and keep solid-state.

After this, the pressure in first can break the producer gas generator 30 that plate 40 causes because of high-pressure combustion gas raise and are broken, and the combustion gases that comprise combustion residue flow to block 44 to eject from gas squit hole 42.

At this moment, gas under pressure to flow out from each gas squit hole 42 after changing its flow direction, makes foreign matter can easily be deposited in the pocket recess from blind end surface 44b to the gas squit hole 42 that approaches most blind end surface 44b at the blind end surface of its bump block 44 44b.And, because above-mentioned effect is by the degree of depth of pocket recess (L1) being set at the maximum length (D1/2) or bigger being strengthened of foreign matter, so the foreign matter material can more easily be deposited among the depression.Just like above-mentioned, gas 44 is discharged to remove the foreign matter material from blocking a shot.

Secondly, because gas under pressure and the temperature difference between the combustion gases among the gas under pressure chamber 20 are very big,, make the high-temp combustion residue be cooled and curing and combustion residue also adheres to the blind end surface 44b of block 44 so combustion gases cool off rapidly.Secondly, the inwall 22a of the combustion gases of ejection bump gas under pressure chamber housing 22 makes combustion residue adhere to inner wall surface and it may be discharged from aerator 10 hardly.By the way, the remaining combustion residue of a part also can adhere on the pin 26.

After this, second plate 58 that can break is broken because of the pressure within the gas under pressure chamber 20 raises, and therefore, gas under pressure and combustion gases are discharged so that airbag aeration from each venting hole 52 via second communicating aperture 56.At this moment, even concern L2 〉=D2/2, carried out so be similar to the effect of block 44 owing among diffusion part 50, also satisfying.

In a kind of like this effect process, aerator 10 presents above-mentioned beneficial effect (IIa) to (IIc), (1) to (3), is discharged into the fragment of the broken plate in the air bag or the amount of combustion residue and is suppressed widely.In practical measurement, during structure among block 44 is not arranged to be shown in Figure 13 and when concerning that L2 〉=D2/2 does not satisfy in diffusion part 50, the combustion residue of discharging outside the aerator 10 is 700mg.But, by employing be shown among Figure 13 structure its reduce to 200mg.

(4) embodiment 4

An embodiment is illustrated with reference to Figure 14.Figure 14 is the axial sectional view of an aerator.Be furnished with in addition and cover second and can break and have same structure the block of plate owing to be shown in the aerator of aerator among being shown in Figure 14 among Figure 13 and Figure 14, thereby same part is with same Reference numeral and its explanation will be omitted.

Have portal 62 block 64 of gas stream and cover second plate 58 that can break from gas under pressure chamber 20 1 sides.Block 64 installings are used for covering second plate 58 that can break, and make the combustion gases that generate because of burning gas generating agent 36 always 64 portal from gas stream and 62 to flow to diffusion part 50 by blocking a shot.Reference numeral 62 expression gas streams portal, and Reference numeral 68 expression flange parts 64 are fixed in diffusion part 50 by flange part 68 and kink 59 and block a shot, and portal 62 diameter and total orifice area of many gas streams can be done to such an extent that equal gas squit hole 42.

In the aerator 10 among being shown in Figure 14, block 44 and diffusion part 50 resemble the aerator 10 that is shown among Figure 13 to be satisfied and concern L1 〉=D1/2 and concern L2 〉=D2/2, and is provided with in addition and blocks a shot 64, makes that beneficial effect (IIa) to (IIc) is further strengthened.

(5) embodiment 5

Another embodiment is illustrated with reference to Figure 15.Figure 15 is the axial sectional view of an aerator.Be shown in aerator 100 among Figure 15 and almost have and the same structure of aerator 10 that is shown among Figure 13, and in Figure 15, represent same component with the same Reference numeral among Figure 13.To be illustrated below with the difference of the configuration aspects of Figure 13 and the beneficial effect that produces owing to structural difference.

In the aerator 100 that is shown in Figure 15, the inner wall surface 22a of gas under pressure chamber housing 22 has continuously or the degree of depth that forms in a circumferential direction intermittently is about the groove of 0.2mm.Reason for this reason, the combustion residue in the combustion gases is trapped among the groove.And therefore, except beneficial effect (1) to (3), also present beneficial effect (4).In addition, as shown in figure 14, can adopt the scheme that wherein is provided with block 64.

Secondly, satisfy block 44 and the aerator of diffusion part 50 as being shown in Figure 13 among and concern L1 〉=D1/2 and concern L2 〉=D2/2, can obtain beneficial effect (IIa) to (IIc).

(6) embodiment 6

Another embodiment is illustrated with reference to Figure 16.Figure 16 is the axial sectional view of an aerator.Be shown in aerator 200 among Figure 16 and almost have and the same structure of aerator 10 that is shown among Figure 13, and in Figure 16, represent same component with those the same Reference numerals among Figure 13.Structural different and with Figure 13 owing to the structural different beneficial effects that produce will be illustrated below.

In the aerator 200 among being shown in Figure 16, gas squit hole 42 is arranged on block 44 the side surface and opening forms and establishes towards producer gas generator 30 ejection combustion gases.Reason for this reason, from the combustion gases of each gas squit hole 42 ejection bump kink 48 before the inner wall surface 22a of its bump gas under pressure chamber housing 22 and near, and therefore, except beneficial effect (1) to (3), can also present beneficial effect (5).Point out in passing, when the scheme among being shown in Figure 15 is used for the inner wall surface 22a of gas under pressure chamber housing 22, can further present beneficial effect (4).Equally, shown among Figure 14, can adopt the scheme that block 64 wherein is set, and the block 44 of another embodiment can be used for replacing block 64.

Secondly, concern L1 〉=D1/2 and concern L2 〉=D2/2, can obtain beneficial effect (IIa) to (IIc) owing to satisfy block 44 and the aerator 10 of diffusion part 50 among being shown in Figure 13.

(7) embodiment 7

Another embodiment is illustrated with reference to Fig. 5 to Fig. 7.Fig. 5 is the skeleton view and the plan view of the block of an embodiment, and Fig. 6 is the skeleton view and the plan view of the block of another embodiment, and Fig. 7 is the skeleton view of the block of another embodiment.Be shown in block among Fig. 5 to Fig. 7 and can be set to the aerator 600,700,10,100 and 200 that is shown among Figure 11 to Figure 16 respectively.

In the block 44 among being shown in Fig. 5, gas squit hole 42 is arranged on the side surface of block 44a, and member (confining member) 45 is used for along circumferentially limiting the combustion gases emission direction that comes from gas squit hole 42.Confining member 45 forms and be the L letter shapes on plan view.Point out that in passing the orientation of confining member 45 can be the direction that is different among Fig. 5.

Owing to be provided with this confining member 45, along the direction ejection of the circumferential surface of block 44 and form eddy current, make except beneficial effect (1) to (3), can also present beneficial effect (5) from the combustion gases of gas squit hole 42 ejections.Point out in passing, when the shape among being shown in Figure 15 can be used for the inner wall surface 22a of gas under pressure chamber housing 22, can further present beneficial effect (4).

Be shown in confining member 45 that block 44 among Fig. 6 is furnished with writing board shape substituting the confining member 45 that is shown in the L letter shapes among Fig. 5, and can obtain with Fig. 5 among those same beneficial effects.

The block 44 that is shown among Fig. 7 is provided with gas squit hole 42 on its end surface 44b, and the member (confining member) 45 of emission direction that is used for coming from along circumferential restriction the combustion gases of gas squit hole 42.Confining member 45 can form and be shown in the same shape among Fig. 5 or Fig. 6.Employing be shown in block 44 among Fig. 7 can acquisition and Fig. 5 and Tu in those same beneficial effects.

The block 44 that is shown among Fig. 5 and Fig. 6 by adjustment concern L1 〉=D1/2 to satisfy, as being shown in aerator among Figure 13 that works acquisition beneficial effect (IIa) and (IIc).Particularly, during block 44 among employing is shown in Fig. 5 and Fig. 6, disruptive first can break the fragment of plate 40 because the effect of confining member and almost can not being discharged from by gas squit hole 42, and has therefore further improved the seizure effect.

(8) embodiment 8

Another embodiment is illustrated with reference to Figure 17.Figure 17 is the axial sectional view of an aerator.Be shown in aerator 300 among Figure 17 and almost have and the same structure of aerator 10 that is shown among Figure 13, and in Figure 17, represent same component with those the same Reference numerals among Figure 13.With structural different and because different will the explanation below on the beneficial effect of structural different generations of Figure 13.

In the aerator 300 among being shown in Figure 17, be equiped with round shape barrier structure 310.Barrier structure 310 has blind end and another open end that forms one with block end surface 44b, and it forms to such an extent that make side wall panel 311 and the gas squit hole 42 on the side surface of block 44a separate a certain distance ground in the face of setting.Equally, shown among Figure 14, can adopt the scheme that block 64 wherein is set, and further, the block 44 that can adopt another embodiment is to replace block 64.

Concern L1 〉=D1/2 and concern L2 〉=D2/2 owing to satisfy block 44 and the aerator 10 of diffusion part 50 among being shown in Figure 13, can obtain beneficial effect (IIa) to (IIc).

Secondly, because barrier structure 310 is arranged at block 44, the combustion gases that spray from each gas squit hole 42 clash into the inwall of barrier structure side wall panel 311, and then, it flows away from the aperture.Therefore, except beneficial effect (1) to (3), can also present beneficial effect (6).Point out in passing, when the scheme among being shown in Figure 15 is used for the inner wall surface 22a of gas under pressure chamber housing 22, also can present beneficial effect (4).

(9) embodiment 9

Another embodiment is illustrated with reference to Figure 18.Figure 18 is the axial sectional view of an aerator.Be shown in aerator 400 among Figure 18 and almost have and the same structure of aerator 10 that is shown among Figure 13, and in Figure 18, represent same component with those the same Reference numerals among Figure 13.With Figure 13 different and because different will explanation below on the beneficial effect of structural different generations structurally.

In the aerator 400 among being shown in Figure 18, be equiped with discoid barrier structure 410.Barrier structure 410 stretches to the inner wall surface 22a of gas under pressure chamber housing 22 with end surface formation one and its end surface from block 44b of block 44b.Equally, shown among Figure 14, can adopt the scheme that block 64 wherein is set, and further, can adopt the block 44 of another embodiment to replace blocking a shot 64.

Concern L1 〉=D1/2 and concern L2 〉=D2/2 owing to satisfy block 44 and the aerator 10 of diffusion part 50 among being shown in Figure 13, can obtain beneficial effect (IIa) to (IIc).

Secondly, owing to be secured to the barrier structure 410 of block 44, from the combustion gases bump barrier structure 410 of each gas squit hole 42 ejections, then, it flows away from the gap between the peripheral edge portion 411 of the inner wall surface 22a of gas under pressure chamber housing 20 and barrier structure.Therefore, except beneficial effect (1) to (3), can also show beneficial effect (6).Point out in passing, when the scheme among being shown in Figure 15 is used for the inner wall surface 22a of gas under pressure chamber housing 22, can further present beneficial effect (4).

(10) embodiment 10

Another embodiment is illustrated with reference to Figure 19.Figure 19 is the axial sectional view of an aerator.Be shown in aerator 500 among Figure 19 and almost have and the same structure of aerator that is shown among Figure 13, and in Figure 19, represent same component with those same Reference numerals among Figure 13.With structurally different of Figure 13 and since the different of beneficial effect of structural different generations will be illustrated below.

In the aerator 500 among being shown in Figure 19, be equiped with discoid barrier structure 510.Barrier structure 510 forms one with the end surface of block 44b, and its end surface from block 44b stretches to the inner wall surface 22a of gas under pressure chamber housing 20, makes peripheral edge portion 511 abut on the inner wall surface 22a.Having the gas through port 512 and the limiting device 513 that are similar to those shapes among Fig. 7 is arranged on the peripheral edge portion 511.Equally, shown among Figure 14, can adopt 64 the scheme of covering wherein is set, and further, the block 44 that can adopt another embodiment is to replace block 64.

Concern L1 〉=D1/2 and concern L2 〉=D2/2 owing to satisfy block 44 and the aerator 10 of diffusion part 50 among being shown in Figure 13, can obtain beneficial effect (IIa) to (IIc).

Secondly, owing to be secured to the barrier structure 510 of block 44, from the combustion gases bump barrier structure 510 of each gas squit hole 42 ejection, then, it flows away by hole 512 and limiting device 513 by gas.Therefore, except beneficial effect (1) to (3), can also present beneficial effect (6) and (5).Propose in passing, when the scheme among being shown in Figure 15 is used for the inner wall surface 22a of gas under pressure chamber housing 22, can further present beneficial effect (4).

Aerator of the present invention can be applied to various aerators, such as the airbag inflator that is used for driver's side, be used for airbag inflator by driver's passenger side, the airbag inflator that is used for side collision, the aerator that is used for the curtain-type air bag is used for the aerator of kneepad, is used for the aerator of inflatable securing band, the aerator that is used for piping is used for the aerator of pretensioner etc.

Embodiments of the invention (III)

Aerator of the present invention is illustrated with reference to Figure 20 and Figure 21.Figure 20 and Figure 21 are the sectional views of two embodiment of the present invention.The aerator 100 that is shown in the aerator 10 among Figure 20 and is shown among Figure 21 almost has same structure, exception be that the axial dimension of aerator 10 is shorter than aerator 100, and these two kinds of aerators differ from one another in the configuration aspects of diffusion part.

Aerator 10 comprises a gas under pressure chamber 20, a producer gas generator 30 and a scatterer 50, and that the external diameter of these members is set at is identical haply.

Gas under pressure chamber 20 has the shell that is made of round shape gas under pressure chamber housing 22 and is filled with the mixture that comprises argon and helium but does not comprise the gas under pressure of oxygen.

Gas under pressure chamber housing 22 axially and the footpath upwards be symmetric, and be reduced to about 22mm with respect to the outer diameter D (approximately 25mm) of its center at the external diameter at place, two ends.Because the length L of gas under pressure housing 22 is set at about 50 to 250mm, so L/D is 1 to 10.

Because gas under pressure chamber housing 22 has a kind of like this shape, thus gas under pressure chamber housing needn't when assembling, be adjusted in the orientation that axially makes progress with the footpath, and can be so that realize the work that engages of producer gas generator 30 and diffusion part 50 by resistance welding etc.

The aeration aperture 24 that is used for gas under pressure is formed in the side surface of gas under pressure chamber housing 22, and is sealed by pin 26 filling with its of gas under pressure.The distal portion 26a of pin 26 puts in pressure medium chamber 20, and the combustion gas flowing that the length that its extension has makes gas generate agent clashes into this extension.By adjusting the length of pin 26 extensions, combustion gases can clash into pin 26 so that combustion residue adheres on the pin 26.In Figure 20, pin 26 can be stretched over till its distal portion 26a reclines the wall portion surface 22a on opposite.

Producer gas generator 30 comprises that portfire (electrical igniter) 34 and the gas that are received among the gas generator shell 32 generate agent 36, and is connected in an end of gas under pressure chamber 20.Aerator 10 is fixed by the part 35 of bending gas generator shell 35.

Gas generator shell 32 and gas under pressure chamber housing 22 couple together at connection section 49 places by resistance welding.In the time of within aerator 10 is assembled into a gas-bag system, portfire 34 is connected to external power source via junctor and lead.

First communicating aperture 38 between gas under pressure chamber 20 and producer gas generator 30 is sealed by first plate 40 that can break, and the latter is owing to the pressure of gas under pressure becomes bowl shape, and the inside of producer gas generator 30 remains under the normal pressure.The first plate 40 usefulness resistance weldings that can break are connected on peripheral edge portion 40a place and are welded in gas generator shell 32.

Block 44 with gas squit hole 42 covers first plate 40 that can break from gas under pressure chamber 20 1 sides.Block 44 installings are used for covering first plate 40 that can break, and make because the combustion gases that burning gas generating agent 36 generates always 44 spray from gas squit hole 42 via blocking a shot.

Block 44 has the flange part 46 that forms by outside bending aperture peripheral edge portion, and by being fixed in the part (kink) 48 of flange part 46 places bending gas generator shell 32.

It is distolateral that diffusion part 50 with the venting hole 52 that is used to discharge gas under pressure and combustion gases is connected in another of gas under pressure chamber 20, is welded to one another and diffusion part 50 and gas under pressure chamber housing 22 usefulness resistance weldings are connected on connection section 54 places.If desired, a strainer of being made by wire cloth can be placed on diffusion part 50 inside so that catch combustion residue.

Second communicating aperture 56 between gas under pressure chamber 20 and diffusion part 50 is sealed by second plate 58 that can break, and the latter is owing to the pressure of gas under pressure becomes bowl shape, and the inside of diffusion part 50 remains under the normal pressure.The second plate 58 usefulness resistance weldings that can break are connected on peripheral edge portion 58a place and are welded in diffusion part 50.

As follows for the technical qualification (1) that are shown in the aerator 10 among Figure 20 to the details of (8):

Technical qualification (1) and (6)

Comprise the mixture of argon and helium but do not comprise the gas under pressure of oxygen, under 30000 to 67000kpa stowing pressure, charged into producer gas generator 20.

Technical qualification (2) and (5)

Generate agent 36 as gas, comprise nitroguanidine/strontium nitrate/Xylo-Mucine/acid clay=34.3/49.6/9.4/6.7 (quality %) (pressure index=0.6, combustion flame temperature=2098 ℃), have cylindrical shape, usage quantity is that 1.9 to 5.3g gas generates agent.

Technical qualification (3)

The amount (mole number) of gas under pressure (A1) (A1) with by amount (mole number) ratio (A2) of the gas that burning gas generating agent generated, A1/A2=1 to 20;

Technical qualification (4)

Quality of gas under pressure (B1) and gas generate the ratio of the quality (B2) of agent, B1/B2=1 to 20;

Technical qualification (7)

The amount of gas under pressure (mole number) (A1) with gas generate agent the total surface aperture (centimetre ²) (C) ratio, A1/C=0.004 to 0.05 mole/centimetre ²

Technical qualification (8)

The total surface area of gas generation agent (centimetre ²) (C) with the total area of venting hole (centimetre ²) (D) ratio, C/D is 0.5 to 4;

Below, the operation that is shown in the aerator 10 among Figure 20 that is assembled among the gas-bag system that is contained on the automobile will be described.

When automobile owing to collision when being subjected to impacting, lighter for ignition 34 activated and lights with burning gas generating agent 36 when the initiating signal that receives from control unit, and therefore, generates the pyritous combustion gases.

After this, first can break plate 40 because the pressure in the producer gas generator 30 that high-temperature combustion gas causes raise and broken, and the combustion gases that comprise combustion residue flow to block 44 so that from 42 ejections of gas squit hole.At this moment, because gas under pressure and the temperature difference between the combustion gases in the gas under pressure chamber 20 are very big, combustion gases are cooled off rapidly, make the high-temp combustion residue be cooled and solidify, and combustion residue also adheres to the inner wall surface of the end surfaces 44a of block 44.Secondly, because the inwall 22a of the combustion gases of ejection bump gas under pressure chamber housing 22, combustion residue adheres to inner wall surface and almost can not be discharged from aerator 10.Point out that in passing the remaining combustion residue of a part also adheres on the pin 26.

After this, owing to second plate 58 that can break is raise by the pressure in the gas under pressure chamber 20 and makes it to break, gas under pressure and combustion gases are discharged from so that airbag aeration from each venting hole 52 via second communicating aperture 56.

In a kind of like this effect process, because aerator 10 provides above-mentioned technical qualification (1) to (6), or preferably be that (1) is to (8), even under 30000 to 67000kpa high gas under pressure stowing pressure, Be Controlled did not get and can excessively raise when the internal pressure in the aerator generated the agent burning at gas.As a result, air bag can be inflated (general, as to think that automobile 10 after colliding is to 30msec) and take the people with protection within Best Times.

Secondly, when gas generates the agent burning, the internal pressure of aerator can suitably be controlled, and therefore, the size of aerator can be done to such an extent that the angle is little of to reduce the size of aerator, simultaneously the fill-up of gas under pressure is held and equals among the prior art, that is, guaranteed to be used to make the amount of the gas under pressure of airbag aeration.And, as the result who reduces the aerator size, raising even work as the stowing pressure of gas under pressure, the internal pressure of aerator also can suitably be controlled during startup.

Aerator of the present invention can be applied to various aerators, such as the airbag inflator that is used for driver's side, be used for by driver's passenger side airbag inflator, be used for side collision airbag inflator, be used for the curtain-type air bag aerator, be used for kneepad aerator, be used for inflatable securing band aerator, be used for piping aerator, be used for the aerator of pretensioner etc.

Example

The present invention will be described in detail as follows on the basis of every example, but the present invention is not limited to these examples.

Example 1

Made a kind of aerator that is shown in the structure among Figure 20 that has.The whole length of aerator is 110mm, and the length (L) of gas under pressure chamber housing is 60mm, and its external diameter (D) is 25mm, and its thickness is that (material: weldless steel tube), and the external diameter of other each several parts of aerator almost is the same to 2mm.The details of technical qualification (1) to (8) etc. is as follows:

Technical qualification (1): comprise the helium of the argon of 96 moles of % and 4 moles of % but do not comprise the mixed gas of oxygen;

Technical qualification (2): have gas drum, that comprise nitroguanidine/strontium nitrate/Xylo-Mucine/acid clay=34.3/49.6/9.4/6.7 (quality %) (pressure index=0.6, combustion flame temperature=2098 ℃) and generate agent;

Technical qualification (3): A1/A2=0.3/0.047=6.4;

Technical qualification (4): B1/B2=11.7/1.9=6.2;

Technical qualification (5): the amount that gas generates agent is 1.9g;

Technical qualification (6): the stowing pressure of gas under pressure is 42000kPa;

Technical qualification (7): A1/C=0.3/46.9=0.0064;

Technical qualification (8): C/E=46.9/21.2=2.2;

L/D＝2.4；

Carry out a kind of 60L jar combustion test of knowing at this aerator, such as, described in the paragraph 11 of JP-2963086B.The jar curve is shown among Figure 22.

From be shown among Figure 22 the jar curve display as seen, even the internal pressure that is reduced size and aerator when aerator itself before startup when very high, the internal pressure of aerator is also controlled by meet the specification (1) to (8) when starting.As a result, what obtain confirming is that air bag is inflated by maximum and the normal start of aerator quilt at about 10msec.

Example 2

Produced a kind of aerator that is shown in the structure among Figure 21 that has.The whole length of aerator is 280mm, and the length (L) of gas under pressure chamber housing is 200mm, and its diameter (D) is 25mm, and its thickness is that (material: weldless steel tube), and the external diameter of other each several parts of aerator almost is the same to 2mm.The details of technical qualification (1) to (8) etc. is as follows:

Technical qualification (1): comprise the helium of the argon of 96 moles of % and 4 moles of % but do not comprise the mixed gas of oxygen;

Technical qualification (2): have gas drum, that comprise nitroguanidine/strontium nitrate/Xylo-Mucine/acid clay=34.3/49.6/9.4/6.7 (quality %) (pressure index=0.6, combustion flame temperature=2098 ℃) and generate agent;

Technical qualification (3): A1/A2=1.09/0.130=8.4;

Technical qualification (4): B1/B2=42/5.3=7.9;

Technical qualification (5): the amount that gas generates agent is 5.3g;

Technical qualification (6): the stowing pressure of gas under pressure is 42000kPa;

Technical qualification (7): A1/C=1.09/72.5=0.015;

Technical qualification (8): C/E=72.5/42.4=1.7;

L/D＝8.0；

As in the example 1, carried out 60 liters of same jar combustion tests at this aerator, and obtained to equal substantially the jar curve among Figure 22.

Propose in passing, when ining contrast to the following fact, promptly in the paragraph 136 of described JP-H09-76870A as description of the Prior Art, have one section narration to be: the inside of aerator housing remains on such as under the high pressure about 4000psi (27600kpa), and that the internal pressure of the aerator of example 1 can be expected when starting is more much higher than internal pressure of the prior art.But, owing to provide technical qualification to ask (1) to (8), the internal pressure of aerator is controlled, makes aerator be able to normal start.

Claims (12)

1. aerator is used to use gas under pressure and passes through the combustion gases that burning gas generating agent generates be airbag aeration, comprising:

One gas under pressure chamber has the shell that is made of round shape gas under pressure chamber housing and filling with gas under pressure; One producer gas generator has the shell that is made of gas generator shell and puts portfire and gas generation agent in described gas generator shell; And a diffusion part,

Wherein, gas generator shell is connected in an end of gas under pressure chamber housing and diffusion part is connected in the other end of gas under pressure chamber housing, and

Between gas under pressure chamber and the producer gas generator by first can the break plate sealing, and between gas under pressure chamber and the diffusion part by the second plate sealing of can breaking;

Described aerator has reached following technical qualification (1) to (6):

(1) described gas under pressure contains rare gas element, but is substantially free of aerobic;

(2) generate agent for gas, by following formula: rb=α p ⁿThe pressure index that draws is 0.8 or littler,

In formula, rb: combustionvelocity, α: coefficient, p: pressure, and n: pressure index;

(3) the ratio A1/A2 of the amount A2 of the amount A1 of the described gas under pressure of representing with mole number and the gas of representing with mole number that generates that agent generates by the described gas that burns is 1 to 20;

(4) the ratio B1/B2 of the quality B2 of the quality B1 of described gas under pressure and described gas generation agent is 1 to 20;

(5) to generate the quality of agent be 0.5 to 30g for described gas; And

(6) stowing pressure of described gas under pressure is 30000kPa to 67000kPa.

2. according to the aerator of claim 1, wherein, in described technical qualification (2), the combustion flame temperature that described gas generates agent is not higher than 3000 ℃.

3. according to the described aerator of claim 1, wherein, further reach technical qualification (7), make the amount A1 of the described gas under pressure represented with mole number and with cm ²The ratio A1/C that the described gas of expression generates the total surface area C of agent is 0.004 to 0.05 mole/centimetre ²

4. according to the described aerator of claim 1, wherein, further reach technical qualification (8), make with cm ²The described gas of expression generates the total surface area C of agent and with cm ²Ratio C/E of the total area E of the venting hole of expression is 0.5 to 4.

5. according to the described aerator of claim 1, the outer diameter D of wherein said gas under pressure chamber housing and the ratio L/D of length L are 1 to 10.

6. according to the described aerator of claim 1, wherein said gas under pressure chamber housing is axially and all be symmetric radially.

7. according to the described aerator of claim 1, wherein the gas under pressure pack hole is formed on the side surface of described gas under pressure chamber housing, and described gas filling hole gives shutoff by pin after the described gas under pressure of filling, and wherein pin puts in the length that the extension of gas under pressure chamber housing and described pin has and makes combustion gas flowing clash into this extension.

8. according to the described aerator of claim 1, be provided with one of at least the block of gas squit hole in the two comprising its side surface and end surface, this block covers first plate that can break from gas under pressure chamber one side.

9. according to the described aerator of claim 1, wherein said gas generator shell is connected by resistance welding with gas under pressure chamber housing with gas under pressure chamber housing and diffusion part.

10. according to the described aerator of claim 1, wherein the external diameter of gas under pressure chamber housing, gas generator shell and diffusion part is equal to each other or is approaching.

11. one kind is the aerator of airbag aeration, comprising:

A gas under pressure chamber of storing pressurized gas wherein;

One producer gas generator, this producer gas generator is connected in an end of described gas under pressure chamber and comprises described producer gas generator and first communicating aperture that described gas under pressure chamber is communicated with, and comprises gas-evolution agent and the portfire that is used to light gas-evolution agent in the described producer gas generator;

One diffusion part, this diffusion part are connected in the other end of described gas under pressure chamber and comprise second communicating aperture that described diffusion part is communicated with described gas under pressure chamber;

First of described first communicating aperture of the sealing plate that can break before starting described aerator;

Second of described second communicating aperture of the sealing plate that can break before starting described aerator; And

Block, this block comprises end surface, has the peripheral surface and the flange part of gas squit hole, and by the part bending that makes gas generator shell in described flange part place fix and from the gas under pressure chamber one side cover cap, first plate that can break firmly, make described gas squit hole relative with the inwall of described gas under pressure chamber.

12. one kind is the aerator of airbag aeration, comprising:

A gas under pressure chamber of storing pressurized gas wherein;

One producer gas generator, this producer gas generator is connected in an end of described gas under pressure chamber and comprises described producer gas generator and first communicating aperture that described gas under pressure chamber is communicated with, and comprises gas-evolution agent and the portfire that is used to light gas-evolution agent in the described producer gas generator;

One diffusion part, this diffusion part are connected in the other end of described gas under pressure chamber and comprise second communicating aperture that described diffusion part is communicated with described gas under pressure chamber;

First of described first communicating aperture of the sealing plate that can break before starting described aerator;

Second of described second communicating aperture of the sealing plate that can break before starting described aerator; And

Block, this block comprises end surface, has the peripheral surface and the flange part of gas squit hole, and by the part bending that makes diffusion part in described flange part place fix and from the gas under pressure chamber one side cover cap, second plate that can break firmly, make described gas squit hole relative with the inwall of described gas under pressure chamber.

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