DE4419519A1 - Inflation device for an air or gas bag device - Google Patents

Abstract

An inflator has a cylindrical casing 1 in which propellant 6 is filled. A plurality of gas outlet holes 2 are disposed on the peripheral surface of the casing. A film 10 is adhered to seal the gas outlet holes. When the gas pressure is raised by the gas evolution of the propellant 6, the film 10 is broken to blowout gas through the gas outlet holes 2. The film is a synthetic resin film of which the tensile strength is increased as the temperature of the film becomes lower. The film may be polyethylene terephthalate, nylon, polypropylene or urethane. <IMAGE>

Description

The present invention relates to an inflator for Use in an air or gas bag device, in particular a cylindrical type inflator. More in particular ren, the present invention relates to an inflator, the temperature dependence of the gas blowout or breakthrough characteristics or properties reduced or eliminated is.

The prior art and he should be described first purifies:

A cylindrical type inflator includes:
a cylindrical housing which has gas outlet holes provided in the peripheral surface thereof; a cylindrical booster tube coaxially inserted into the housing and having a plurality of gas through holes connecting the inside with the outside of the tube; an ignition cord inserted in the booster tube in the axial direction; an igniter for igniting the fuse; Amplifier or ignition booster propellant, which is filled between the fuse and the amplifier or Zünd amplifier kerrohr; and a main propellant that is filled between the booster tube and the housing. The holes in the housing are closed or sealed with a film that is adhered to an inner surface of the housing.

If a vehicle that has an air or gas bag and the The above inflation device comprising an air or gas bag device has collided, the igniter is switched on electrically, around the booster propellant in the ver to fire stronger or ignition amplifier tube, and thereby the main propellant ignited to produce gas and the gas tears or breaks the film to look for the exterior of the Ge to break out or break through the housing to be blown out.

One or the application or initial rate or speed, which is the rapidity of the pressure increase from the housing gas to be blown out or blown out immediately after the Ignition indicates by the igniter affects the expansion or inflating the air or gas bag.

Because the propellant reacts more actively when the ambient temperature temperature (atmospheric temperature) becomes higher, the use or Initial rate or rate of gas pressure or initial rate of increase in gas pressure in a con conventional inflation device due to the ambient temperature influenced.

The object of the present invention is in particular a To provide inflator in which the Temperature dependence of the application or initial rate or ge speed of the gas pressure or the initial increase speed of the gas pressure is reduced or canceled.

An inflator for an air or gas bag device according to the present invention comprises: a zylin drisches housing that has gas outlet holes that in the circumference surface of which are arranged; a film that is sticky is attached to the inner surface of the housing and the Closes or seals gas outlet holes; a cylindrical Amplifier or ignition amplifier tube that coaxially into the housing is inserted and has a plurality of gas through holes,  which ver the inside with the outside of the cylindrical part tie; an booster propellant that in the booster or ignition booster tube is filled; and a Main blowing agent between the amplifier or Zündver stronger tube and the housing is filled; being the movie one Resin film is its tensile, stretch, break and / or tear strength, especially its tensile strength, increases when its temperature becomes lower.

According to the inflator for an air or gas bag the present invention, the amplifier or Zündver more powerful propellant is ignited by the igniter, and then the main propellant ignited to produce gas, so that Gas is expelled from the inflator. The blowing agent tel responds faster when the gas pressure in the housing is higher becomes.

The film closes the holes and has a pull, stretch, Break and / or tear resistance, especially a tear which increases when the temperature of the film is low ger, so that thereby the gas pressure in the housing during the reaction of the blowing agent and before the film breaks or is broken, becomes higher, causing the propellant in the Housing reacts faster when the temperature gets lower. This way the response rate will decrease or speed of the blowing agent due to the drop in Ambient temperature by increasing the reaction rate or -speed due to the increase in gas pressure in the Housing canceled or balanced. If the gas pressure in the Housing the tensile, elongation, breaking and / or tear strength, esp especially the tensile strength of the film exceeds the Film torn or broken.

If the temperature rises, the reaction rate or -ge speed of the propellant increases, and the pulling, stretching, Break and / or tear resistance, especially the tear resistance ness, the film is reduced. As a result, the film  torn or broken before the pressure in the case like this or increases too high. Therefore, the increase in the reaction rate te or speed of the blowing agent due to the tempera increase due to the reduction in the reaction rate or ge speed of the propellant due to the drop in gas pressure in the housing canceled or balanced.

The above as well as other advantages and features of the Erfin below are based on some preferred embodiment shape the inflator according to the invention with reference took on the figures of the drawing described in more detail and he purifies; show it:

Fig. 1 is a longitudinal sectional view taken along the line II in Fig. 3, illustrating an inflator according to an embodiment of the present invention;

Fig. 2 is a cross sectional view taken along the line II-II of Fig. 3, which also shows the inflator according to the present embodiment of the invention;

Fig. 3 is a plan view of the inflator according to the present embodiment of the invention;

Fig. 4 is a side view of the inflator according to the present embodiment of the invention; and

Fig. 5 is a graph of the operating characteristics or characteristics of preferred embodiments of inflators according to the invention, in particular the present embodiment.

The figures in the drawing will now be discussed hand a preferred embodiment of the present Er is described.  

This embodiment comprises a housing 1 , which is cylindrical and has a plurality of gas outlet holes 2 , which are arranged in the peripheral surface thereof. The housing 1 is preferably made of aluminum or aluminum-based alloy. A synthetic resin film 10 is adhered or in any other suitable manner on the inner surface of the housing 1 , in particular glued to close or seal the gas outlet holes 2 . As shown in Fig. 5, the resin film 10 has such characteristics that the tensile, elongation, break and / or tear strength, particularly the tensile strength, of the same increases as the temperature becomes lower.

An amplifier or ignition amplifier tube 3 is inserted coaxially into the housing 1 . A fuse 4 is inserted into the booster or booster tube 3 in the axial position thereof. Amplifier or ignition booster propellant 5 is filled between the fuse cord 4 and the booster or booster tube 3 . In addition, main propellant 6 is between the booster tube 3 and the housing 1 is filled. A plurality of gas through holes 3 a is arranged in the booster tube 3 .

A filter 7 for collecting or retaining particulate material in the gas is disposed along the inner surface of the housing 1 . An igniter 8 for igniting the fuse 4 is arranged on or in an end face of the housing 1 . Furthermore, auto-ignition material 9 is arranged on or in the other end part in the housing 1 . The auto-ignition material 9 is ignited in the event of a fire and by the heat of the fire.

When the igniter 8 is turned on with the electric current, the fuse 4 is ignited or ignited. Soon after, the booster 5 and the main propellant 6 are ignited so that the gas tears or breaks through the film 10 and is pushed out through the gas outlet holes 2 .

The gas outlet holes 2 are closed or sealed by means of the synthetic resin film 10 , the tensile, elongation, fracture and / or tear strength, in particular its tensile strength, increases when the temperature decreases. When the ambient temperature is low, the gas pressure in the casing 1 is high immediately after the inflator is operated (before the film 10 is torn or broken). This high pressure cancels the reduction in the reaction rate or speed of the blowing agents 5 , 6 due to the drop in the ambient temperature.

If the ambient temperature is high, the reaction rate or speed of the blowing agent 5 , 6 is increased. However, the tensile, elongation, fracture and / or tear strength, in particular the tear resistance, of the synthetic resin film 10 is reduced. Accordingly, the film is torn or broken before the gas pressure in the housing 1 has risen sufficiently or too much. That is, the gas pressure in the case 1 is lowered when the ambient temperature is high. This is one of the factors in reducing the rate of reaction of the blowing agent. As a result, the reaction rate of the blowing agent for generating gas, even when the ambient temperature is high, is substantially the same as the reaction rate at a low temperature.

In the present invention, the resin film is preferred example of polyethylene terephthalate (PET), especially biaxial oriented or aligned PET, nylon, polypropylene, Urethane or the like. The resin film can be a film be laminated from a plurality of films.

If it is defined that the tensile, elongation, fracture and / or tear strength, in particular the tensile strength, of the film at room temperature (22 ° C) has the value T₂₂ and the tensile, elongation, fracture and / or Tear resistance, especially the tensile strength, of the film at -30 ° C has the amount T _-30 , the film preferably has a ratio of T _-30 / T₂₂, which is between 1.2 and 1.35, more preferably between 1.25 and 1.3. It is preferred that the film have a tensile, elongation, fracture and / or tear resistance, in particular a tensile strength, which increases linearly from room temperature to -30 ° C. The ratio T _-30 / T₂₂ of the urethane film is approximately 1.3. The ratio T _-30 / T₂₂ of the biaxially oriented or aligned PET film is approximately 1.25.

As mentioned above, in the inflator for an air or Airbag device according to the present invention Use or start rate or speed, even if the ambient temperature changes, essentially constant, so that an air or gas bag always in a predetermined manner and expanded or inflated.

In brief, the invention is an inflator device that has a cylindrical housing, in which propellant is filled. A majority of gas out holes is arranged in the peripheral surface of the housing net. A film is used to seal or seal the gas holes attached, especially glued. If the Gas pressure is increased by the gas evolution of the propellant, the film breaks out or breaks through the gas Gas outlet holes torn or broken. The film is a Resin film, the tensile strength increases when the tem temperature of the film becomes lower.

Claims (5)

1. Inflation device for an air or gas bag device, comprising:
a cylindrical housing ( 1 ) having gas outlet holes ( 2 ) arranged in the peripheral surface thereof;
a film ( 10 ) which is arranged on the inner surface of the housing ( 1 ), in particular adhered, preferably glued, and closes or seals the gas outlet holes ( 2 );
a cylindrical amplifier or Zündverstärkerrohr (3) which is inserted coaxially into the housing (1) and a plurality of gas passage holes (3 a) which ren the interior with the Äuße connect the tube (3);
Booster or ignition booster propellant ( 5 ) which is filled into the booster or booster tube ( 3 ); and
Main propellant ( 6 ) which is filled between the booster tube and the booster tube ( 1 );
wherein the film ( 10 ) is a synthetic resin film, the tensile, elongation, fracture and / or tear strength, in particular its tensile strength, becomes higher when the temperature thereof becomes lower. 2. Inflator according to claim 1, characterized ge indicates that the synthetic resin is polyethylene rephthalate, nylon, polypropylene or urethane. 3. Inflator according to claim 1 or 2, characterized in that the film ( 10 ) is a biaxially oriented or oriented polyethylene terephthalate film. 4. Inflator according to claim 1, 2 or 3, characterized in that the tensile, elongation, fracture and / or tear strength, in particular the tear strength, T₂₂ of the film ( 10 ) at room temperature and the tensile, elongation , Breaking and / or tear strength, in particular the tensile strength, T _{-30 of} the film at -30 ° C in such a range that the ratio T _-30 / T₂₂ is between 1.2 and 1.35, and the train -, Elongation, break and / or tear strength, especially the tensile strength, the film increases linearly from room temperature to -30 ° C. 5. Inflator according to claim 4, characterized in that the ratio T is _-30 / T₂₂ between 1.25 and 1.3.