DE2348834A1 - TWO-STAGE INFLATING DEVICE WITH PRESSURE REINFORCEMENT - Google Patents

Description

patent attorney88M8 Fos! e? iSGhrI! | _{900Aügsbl> ra} . _GÖESinge ^ _the 27th sept. 1973

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DIPL. ING. K3. LItLBAU (please specify when replying)

Your sign

Aerojet-General Corporation

9100 East Flair Drive

El Monte, California 917 34 / USA

Two-stage inflator with pressure intensification

The invention relates to a two stage inflator with pressure amplification and, more particularly, to one two-stage device for increasing the pressure of a stored gaseous medium and a valve device for the automatic release of the stored gaseous medium by activating the pressure booster.

There are many situations that require the use of inflatable sac-like organs. Life rafts and life jackets are well-known examples, another application used in the latter Has become known for a decade, swimming devices are

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which should prevent the sinking of space capsules, who return to earth for landing on the water, and for ocean-going vessels in distress. Signal balloons that come into action automatically or are triggered manually to indicate crash sites of aircraft, represent another form of application. For inflatable Bag-like organs, there is yet another application for restraint systems, in order to prevent accidents To keep injuries to vehicle occupants as low as possible. Such restraint systems work in such a way that the contents of a pressure vessel is released into an inflatable envelope which is placed in front of a vehicle occupant and has the task of bringing about a safe deceleration of the vehicle occupant during an accident and thereby prevent serious injuries.

In each of these situations, the bag-like organ must be stored in an unfilled state and a device must be used Inflation of the organ can be provided. The inflation can be done manually or automatically and by different known types of gravity accelerometers, Inertia sensing devices and other mechanical sensing elements can be controlled. In any case A rapid actuation is usually required regardless of whether inflation is manual or automatic. This is particularly the case with restraint systems, in which from the point in time a Accident at the point in time at which the sack must be inflated, only a few milliseconds may have passed.

So that an inflatable bag-like element quickly and up the volume required in each of the situations described above can be filled a suitable gaseous medium at relatively high

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Press in a pressure vessel or container can be stored « Usually an explosive device is placed in the container operated when inflating, which explosive device breaks a seal or operates a valve, which allows the gas under pressure to escape into the inflatable organ, so that this is inflated.

Since the required gas volume and the speed, with which this must be available, the storage of gas under high pressure alone makes inadequate, became generally proposed to build a device inside the pressure tank to increase the gas pressure at the moment of the Usable to use. For example, it has been proposed to have a suitable jacket inside the pressure vessel to be arranged for receiving a gas generating mass. A device is provided for this purpose which the gas generating mass can be caused to ignite, the resulting gas being the mass of the im Container stored gas enlarged and thereby to Inflation of the sac-like organ contributes.

In the concurrently filed U.S. patent application

Ser.No. * Suggested inside the sheath

to arrange a heat-generating mass. A device is provided for igniting this mass, whereby the The resulting heat increases the pressure of the gas stored in the container, which leads to the inflation of the bag-like organ contributes.

In all of these older systems, the use of of the gas or heat generator achieved only a single mode of operation. For example, in a restraint system, regardless of whether the impact is at a speed

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at 16 km / hour (10 m.p.h.) or at a speed of 96 km / h (60 m.p.h.), the inflatable organ inflated at the same speed and to the same volume, even if in low-speed collisions a much smaller volume would be more convenient and safer. Furthermore, in the event of a collision with high speeds pressure intensification in general can be sustained for a much longer time than would be the case with low-speed collisions necessary is.

Furthermore, in the previously used inflators with pressure intensification a tearable membrane is used to close the outlet of the pressure vessel, which membrane has to be burst if an excessive pressure condition is detected in the pressure vessel. However, the use of such destructible elements creates difficult and expensive manufacturing processes for critical setting of the organ's rupture point so that it is not destroyed during normal use, but always bursts before the pressure vessel bursts itself. To solve this problem was the use of an explosive operated valve suggested that not by the pressure inside the vessel is activated, but independently by an igniter. With previous use however, such a valve has generally been a separate ignition device and a separate expansion device required for actuation in the event of excessive pressures in the vessel.

The invention solves these problems through the use of a two stage inflator with pressure intensification, the allows an instant inflation of a sack-shaped organ and can be operated manually or automatically.

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The inflation device according to the invention is a two-stage Device that gives different properties under different working conditions. For example, in a restraint system, only a first pressure booster is reduced under certain conditions Activated speed while a first and a second intensifier in collisions with high Speeds are activated to set the speed to increase the volume and duration of the inflation process of the inflatable organ. The inflator according to the invention has a new type of pendulum valve that is actuated directly by the pressure generated by the Pressure intensification stages is generated without the presence of a destructible membrane. Furthermore, in the Valve built in a high pressure relief device that automatically activates the valve when an excessively high pressure condition occurs.

The object of the invention is therefore to provide a two-stage inflation device with pressure amplification.

It is also an object of the invention to provide a two-stage device for amplifying the pressure of a stored gaseous medium and a valve arrangement for the automatic release of the stored gaseous medium To release the medium when activating the pressure booster.

Another object of the invention is to provide an inflator with different working methods under different operating conditions.

It is also part of the object of the invention to provide a two-stage inflation device with pressure intensification.

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enter which has a valve which is actuated directly by the pressure exerted by the inflator is produced..

It is also part of the object of the invention to provide a two-stage inflation device with pressure amplification, in which the use of tearable organs is avoided, which when excessive pressure is created in one Address the pressure vessel.

Furthermore, it is part of the object of the invention to provide an inflation device with a valve into which a high pressure expansion device is installed.

Further objects, features and advantages of the invention emerge from the following detailed description of a preferred one Embodiment of the invention in connection with the enclosed drawings show:

Fig. 1 is a view in longitudinal section along the axis of a two-stage inflator with pressure amplification according to the invention and that before the ignition of each of the two gain stages;

FIG. 2 shows a partial view similar to FIG. 1 in a longitudinal section, the section, however, through a plane is guided, which is rotated by 90 ° with respect to the plane of Fig.l;

FIG. 3 is a partial view in longitudinal section similar to FIG. 1 after ignition of the first amplification stage and the activation of the pendulum valve and

4 shows a partial view similar to FIG. 2 in longitudinal section after the ignition of the second amplification stage and

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the activation of the pendulum valve.

The inflator according to the invention shown in FIG. 1 is indicated generally by 10. In all figures, all parts are cylindrical unless otherwise indicated.

The inflator 10 is for use with a Container intended for storing a suitable, non-toxic, harmless gas under pressure. This Gas can be air, argon, nitrogen or the like. The container 11 is provided with an outlet pipe section 12 which has an axial bore 13 which delimits an outlet channel for the container 11. That part of the outlet pipe 12, which is located outside the container 11, is provided with an external thread 14 to the Allow connection to a suitable conduit through which the stored gas becomes an inflatable Organ can be directed. The neck of the container 11 is provided with an internal thread 15 for receiving the external thread 16 provided on the inner part of the outlet pipe section 12. The outlet pipe section 12 is formed with a circumferential collar 17, which rests against the end of the container 11 and hermetically with this at 18 by welding or brazing is sealed.

The inflator is equipped with a passage organ, which is generally designated 20 and serves to close the outlet channel 13 to a gas flow to prevent out of the container 11 through this. According to the passage organ or the Closure 20 is formed by an elongated hollow housing 21, one end 26 of which extends partially into the axial Bore 19 extends in the outlet pipe section 12 and in this

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can be welded in place to form a hermetic seal. Inside the housing 21 is a slidable Pendulum valve 2 2 mounted. The shuttle valve 2 2 has a first and a second end 23 and 24, respectively The outer diameter is approximately equal to the inner diameter of the valve housing 21, and a central part 25 of significantly reduced diameter. The end 23 of the shuttle valve 22 is normally adjacent the end 2 6 of the valve housing 21 and is aligned along its circumference with the inner surface of the housing 21 at 27 so associated with obtaining a range of predictable shear will. The connection between the end 23 of the valve 22 and the end 26 of the housing 21 can through Undercutting or obtained by a controlled welding or brazing process. In any case it is Interface 27 is intended to form a known shear cross-section, which always causes the valve to open at a pressure threshold that is far is below the bursting pressure of the container 11.

The valve housing 21 is provided at its central part with several radial channels 28 which act as outlet openings, a fluid connection between the gas in the container 11 and the interior of the valve housing 21 to enable. If the shear cross section 27 breaks, the gas can within of the container 11 escape through the outlet openings 28 and the outlet channel 13.

Further, the valve housing 21 is provided with a plurality of radial channels 29 which are arranged so that they intersect with end 24 of pendulum valve 2 2. the Channels 29 act as outlet nozzles for the first stage pressure intensifier, as will be described in more detail below. The end 24 of the shuttle valve 22 normally prevents

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a fluid connection between the interior of the housing 21 and the container 11 via the channels 29.

The inflator 10 also has a housing 30 in which the first and second pressure booster stages are located 31 or 32 for the gas stored in the container 11 is located. The housing 30 is elongated, hollow and substantially cylindrical and has an internally threaded collar 33 at one end for engagement with the external thread 34 on the valve housing 21. Inside the housing 30 is a spacer 35 arranged, which separates the amplifier stages 31 and 3 2 from one another. On opposite sides of the spacer 35 are holders 36 and 37 with hollow central spaces for receiving capsules 38 and 39 with electrical Ignition arranged. The spacer 35 has a bore

40, which extends laterally through this, and

the housing 30 is on one side with a slot

41 provided, which extends from the end of the covenant 33 to a Location extends beyond the axis of the bore 40 in the spacer 35. The spacer 35 is also axial Bores 4 2 and 4 3 are provided, which are in communication with the central cavities in the brackets 36 and 37. It can therefore one end of a first pair of electrical leads 44 through the slot 41 in the housing 30 and through the holes 40 and 42 are guided in the spacer 35 for connection to the primer 38, while the one End of a second pair of electrical leads 45 through slot 41 in housing 30 and through bores 40 and 4 3 can be guided in the spacer 35 for connection to the primer 39. The slot 41 is provided to enable the steps 31 and 32 to be built into the housing 30. The lines 44 and 45 can, as shown,

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be held together and protected by a sleeve 46.

The other ends of the leads 44 and 45 are connected to one end of a first and a second pair connected to end pieces 47 and 4 8, which in one suitable non-conductive material 49 are embedded, which is firmly connected to a plug 50, which is with a External thread is provided. The end wall 51 of the container 11 can be provided with a threaded hole 5 2, in which the external thread of the plug 50 can be screwed in. After the plug 50 in the hole 5 has been screwed in, the whole can be welded, as shown at 5 3, to form a hermetic seal to obtain. The other ends of the connecting pieces 47 and 48 can be connected to electrical leads 55 and 5 6 may be connected to connect to separate sources of electrical ignition signals, as follows is described in more detail.

The brackets 36 and 37 are recesses 60 and

61 for holding flammable pressure booster compounds

62 and 63 formed. According to the invention, the masses 62 and 63 can be of any suitable flammable composition to increase the pressure of the gas in the container 11 as a result of ignition. The masses 6 2 and 6 3 can therefore be gas-generating materials known per se or heat-generating masses, as described in the aforementioned US patent application. The masses 6 2 and 63 can therefore have the form of schexben-shaped grains which are stacked next to one another and are held in this position in the recesses 60 and 61 by springs 64 and 65 . The spring 64 is disposed between the mass and the end 24 of the shuttle valve 22 while

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the spring 65 are arranged between the mass 6 3 and the end 6 6 of the housing 30. j O Λ ο ο ο /

Inside the valve housing 21 is a spacer sleeve

67 arranged, at one end with a collar

68 is formed, which rests against the end of the valve housing 21. The spacer sleeve 67 serves as a seat for the primer holder 36, Furthermore, the inner surface of the housing 30 is provided with a shoulder 6 9, which as Seat for the primer holder 37 is used. Therefore, when the housing 30 is tightened against the housing 21 the brackets 36 and 37 firmly in contact with the opposite sides of the spacer 35 between the sleeve 67 and the shoulder 6 9 held. The spring 64 then holds the mass 62 firmly against the recess 60 in the primer holder 36, while the spring 65 holds the mass 63 firmly against the recess 61 in the primer holder 37.

The end 66 of the heat generator housing 30 is provided with a plurality Outlet nozzles 70 provided, the number and size of the Nozzles 29 and 70 the volume of the container 11, the pressure of the stored gas and the desired blow-off properties The inflator 10 is appropriately provided, the nozzles 70 are normally destructible by a Membrane 71 held within end 66 of housing 30 for reasons explained in greater detail below closed.

As shown in FIG. 2, in the inflator 10 also a bore 80 is provided which extends through the spacer 35 and the brackets 36 and 37 extends, creating the recess 60 in the bracket 36 with the recess 61 in the holder 37 is in communication. A bolt 81 extends through the portion of the bore 80 in the spacer 35 and partially through the parts of the

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Bore 80 in brackets 36 and 37 to prevent rotation of one part with respect to the other and to ensure unchanged alignment between the sections of bore 80 in parts 35, 36 and 37. In addition, the portion of the bore 80 has in the holder 36 has an enlarged section 82 in contact with the recess 60, in which a disk 8 3 is located. The disk 8 3 can therefore be moved in the direction of the mass 62, but not in the direction of the mass 6 3 for reasons that are explained in more detail below.

In terms of operation, Figures 1 and 2 show the condition of the inflator 10 prior to ignition each of stages 31 and 32. The supply of an electrical ignition signal via the ignition lines HU to the detonator 38 of the first stage causes the capsule to ignite. The heat generated by the ignition of the capsule 38 passes through the central cavity in the holder 36 and ignites the grains of the adjacent mass 62, which has the consequence that the entire ■ outer surface of the mass 6 is enveloped in flames. The ignition of the mass 62 leads to an immediate pressure build-up in the substantially limited by the spacer sleeve 67 chamber. This increased pressure is prevented from leaving this chamber by that the nozzles 29 through the end 24 of the shuttle valve 22 are practically blocked. The increased pressure therefore acts fully on the end 24- of the valve 22, so that on the valve an axial thrust is exerted, whereby the brazed or undershot boundary surface at 27 is sheared off. This state is shown in FIG. 3. The valve 22 moves axially up to the end 24 at a stop 90 approximately comes to rest in the middle of the valve housing 21.

In the position shown in FIG. 3, the valve 22 allows the gaseous medium stored in the container 11 to pass through

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234883A

the outlet ports 28 around the end 23 of the valve 22 escape around and through the outlet channel 13. Besides that the combustion products can escape from the mass 6 2 into the vessel 11 through the nozzles 2 9. The escaping Combustion products of the pressure booster 31 of the first stage increase the temperature and / or the Mass of the stored gaseous medium, so that a pressure boost is obtained.

Under certain operating conditions it can be desirable be to initiate the first stage 31 only. Under these conditions, the membrane 71 prevents the The build-up of heat and pressure within the vessel 11 causes a sympathetic ignition of the mass 63 of the second stage brings about. Under other operating conditions, however, the pressure gain obtained by the first stage 31 can be used be insufficient to ensure the required energy to inflate and the bloated state to be maintained for a sufficient period of time. For example, with a restraint system the pressure intensifier 31 of the first stage must be adequate to generate the required energy during the required Period for collisions at low speeds, but not to deliver the required energy available for a sufficient period of time in the event of collisions at high speeds place. It is therefore a> pressure booster 32 of the second Stage provided and the mass 6 3 simultaneously with the mass 62 or after a certain time interval be initiated. That is, by supplying an electrical ignition signal via the supply lines 45 to the ignition capsule 39 In the second stage, this is initiated and subsequently the mass 63 of the second stage is ignited. As a result of Ignition of the second stage cracks as a result of the

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caused pressure build-up against the end 6 6 of the housing 30 the membrane 71 so that the combustion products of the mass 63 can escape through the nozzles 70. The escaping Combustion products of the mass 63 of the second stage increase the temperature and / or the mass of the Gaseous medium stored in the container 11, so that a pressure boost is obtained.

It should be mentioned in particular that the pressure within the container 11 is always the end 2 3 of the valve 2 2 is supplied via the outlet openings 28. The valve 22 therefore speaks directly to any excessive internal pressure in container 11. Therefore, if the pressure in the container 11 exceeds a certain threshold value, as can be done, for example, when the container 11 is surrounded by flames, the undercut or brazed interface 27 of valve 22 sheared off, so that the valve 22 opens and the contents of the container 11 can escape through the normal functional flow path. It should be emphasized, however, that these are the only circumstances under which valve 22 will be activated when there is an excessive pressure condition occurs in the container 11. Under normal conditions, the valve 2 2 is operated directly by the pressure that is generated by the ignition of the mass 62.

The inflator 10 is also provided with a safety device to ensure immediate actuation of the valve 22 if the primer 38 of the first stage does not come into operation. In particular, as can be seen from FIGS. 2 and 4, the bore 80 acts in FIG Connection to the disk 8 3 as a pyrotechnic one-way check valve. In other words, it is assumed that a malfunction has the result that the primer 38 of the

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first stage does not ignite if an electrical signal is fed via the leads 44, but the detonator 39 of the second stage ignites when an ignition signal is supplied via leads 45. If this happens, the pressure build-up in the container 11, which is caused by the second stage 32, would be more than probably the shearing of the undercut or bring about brazed interface 27 of valve 22, whereby the latter is opened. The inflator However, 10 causes the valve 22 to initiate directly. This means that the heat and pressure from the ignition the second stage is fed via the bore 80 and the bolt 81 of the disc 83, whereby the latter is blown away and enabling sympathetic ignition of the first stage mass 62. Then actuates the Pressure build-up around the mass 6 2, which acts on the end 24 of the valve 22 acts, the latter in the open position by shearing off the brazed or undercut interface 2 7 as described above. Hence will the valve 22 is actuated by the generator pressure rather than by the overpressure in the container 11.

On the other hand, the ignition of the first stage 31 does not cause the ignition of the second stage 32, since the opening 82 allows a movement of the disk 8 3 only in one direction. In other words, it lasts the pressure surrounding the mass 62, the disc 8 3 in the opening 82, instead of being thrown away, as is the case in FIG Ignition of the second stage is the case.

It follows from this that the invention provides a two-stage Pressure boosting inflator 10 has been created that provides instantaneous inflation of a bag-like organ enabled and by hand or automatically

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can be operated. The inflator 10 is a two-stage device, with the different behavioral characteristics can be achieved under different operating conditions. Hence, for example in the case of a restraint system, the pressure booster 31 the first stage is activated in the event of collisions at low speeds, while the pressure intensifier 32 of the second stage in the event of high-speed collisions is activated either simultaneously or subsequently, thereby increasing the speed, volume and To increase the inflation time of the inflatable envelope. The inflator 10 has a novel one Shuttle valve 22 which is operated directly by the pressure generated by the pressure intensifier 31 of the first stage without the need for a destructible organ that responds to excessive internal pressures in the container 11 target. The valve 2 2 also serves as a high pressure safety clamping valve that opens automatically when an excessive pressure build-up condition occurs. Furthermore, in the event of a fault in the pressure booster 31 of the first stage, the subsequent ignition of the pressure booster takes place 32 of the second stage, the automatic ignition of the first stage and the direct actuation of the pendulum valve 2 2 for As a result, this does not have to be triggered by excessive internal pressures in the container 11.

The invention is of course not restricted to a preferred embodiment, but can be used within it Underwent various changes within the framework.

Patent claims :

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Claims (1)

Claims 1. Kufblasvorrichtung with a container for storage a gas under pressure having an outlet channel, a passage for the closure of the outlet channel, in order to prevent gas flow from the container through the outlet channel, a jacket in the container for receiving a device for increasing the pressure of the stored gas, and a device for igniting the pressure booster device and at the same time opening the shutter, to allow gas to flow out of the container through the outlet channel, characterized in that that the pressure intensifying device by a first and a second member for separate and independent amplification of the pressure of the stored gas is formed and the ignition device first and having second means for the separate ignition of the first and the second pressure booster member. 2. Apparatus according to claim 1, characterized by a device for activating the first ignition device alone under a first given set of circumstances and a facility for simultaneous or sequential Activation of the first and second ignition devices under a second predetermined rate 409823/0281 of circumstances 3. Device according to claim 1, characterized in that that the closure is formed by an elongated, substantially cylindrical valve housing, the one end extends into the outlet channel in the container and is sealed with this, which valve housing has a chamber for connection with the outlet channel from and provided with at least one radial channel to connect said chamber to the interior of the container, and a valve assembly inside the chamber in the valve housing, which provides fluid communication between the radial channel and the outlet channel selectively enabled or prevented. 4 ·. Device according to claim 1, characterized in that that the closure for sealing the outlet channel comprises an elongated, substantially cylindrical Valve housing, one end of which extends partially through and with the outlet channel in the container is sealed, which housing has an elongated chamber for connection to the outlet channel and with a first radial channel is provided in a central part thereof and a second radial one Channel at its other end, and a slidable shuttle valve that is inside the chamber of the valve housing is arranged and one end of which with one end of the housing between the first channel and the outlet channel is sealed to 409823/0261 to prevent fluid communication between the two while the other end of the valve is the second channel through the valve housing, and further comprises means for connecting one end of the Sheath with the other end of the valve housing, which sheath has a first chamber at one end in fluid communication with the chamber of the valve housing, the first pressure booster member within of the first chamber is arranged in the shell, so that the pressure generated by the first booster against the mentioned other end of the valve to break the seal and to close the valve to move the one end of the valve housing, whereby the second channel is opened and thereby a fluid connection is made possible between the container and the outlet channel via the first channel. 5. Apparatus according to claim 4, characterized in that that the casing is provided at its other end with a second chamber, the second pressure intensifier is arranged within this second chamber of the casing, which other end of the second chamber has at least a third channel, and a rupturable membrane for the closure of the third Channel in the mentioned other end of the jacket to a sympathetic ignition of the second amplifier to prevent the ignition of the first amplifier. 6, device according to claim 5, characterized in, that a one-way check valve passes through the 409823/0261 - 90 - telung from the second chamber in this to the first chamber in this extends to the first pressure booster by the combustion products of the second To ignite pressure booster automatically, but ignition of the second pressure booster by the combustion products, which are generated by the first pressure intensifier to prevent. 7, inflator, characterized by a container for storing a gas under pressure with an outlet channel, a closure for sealing of the outlet channel to prevent gas flow from the container through the outlet channel, a first and a second enclosure for receiving the pressure booster, each enclosure with at least arranged at one end in the container, a first and a second inflammable organ, which within the first or the second enclosure is arranged to generate heat and / or gas in order to increase the pressure of the stored gas, and a first and a second device for the separate ignition of the first and second generation. furnishings. 8. The device according to claim 7, characterized by a device for activating only the first ignition device under a first given set of circumstances and a facility for simultaneous or subsequent activation of the first and the second 409823/0261 Ignition device under a second specific sentence of circumstances Device according to claim 7, characterized by an elongated, essentially cylindrical valve housing, one end of which extends into the outlet channel in the container and is sealed with it, which valve housing has a chamber for fluid communication with the outlet channel and with at least one radial channel for connecting the mentioned chamber is provided with the interior of the container, which seal is formed by a valve that is inside the mentioned chamber is arranged in the valve housing, and serves to selectively establish fluid communication between to enable or prevent the radial channel and the outlet channel. 10, device according to claim 9, characterized in that that one end of the valve along its circumference with the housing between the one radial channel and the outlet channel is sealed, while the other end of the valve on the other side of the / radial Channel is arranged, and further 'characterized by means for connecting said one end of the first enclosure to the other end of the valve housing, which faces the other end of the valve, so that the pressure from the first generating device acts directly on the mentioned other end of the valve to break the mentioned seal and thus the fluid connection between the radial channel 409823/0261 and to allow the outlet channel. 11. The device according to claim 10, characterized in that that the valve housing has at least one second radial channel through which the combustion products, wich are generated by the first generating device, are passed into the container, wherein the other end of the valve normally blocks the second channel, so that the pressure from the first Generating device activates the valve mentioned before it is passed into the container. 12. The device according to claim 7, characterized by an elongated, substantially cylindrical valve housing, one end of which extends partially through the outlet channel in the container and is sealed therewith is, which housing has an elongated chamber for communication with the outlet channel and one first radial channel adjacent to a central part thereof and a second radial channel adjacent the other end of which, the seal being formed by a slidable pendulum valve, which is arranged within the mentioned chamber in the valve housing, one end of the valve with the mentioned one end of the housing between the first channel and the outlet channel is sealed to normally to prevent fluid communication between the two while holding the other end of the valve normally the second channel blocked by the valve housing, and further characterized by an inlet 409823/0261 direction for connecting one end of the first enclosure to the other end of the valve housing for fluid connection between the two, so that heat and / or gas is generated by the first generating device directed against the mentioned other end of the valve in order to break the mentioned seal and cause movement of said valve to one end of the housing, whereby the second channel opened and a fluid connection between the container and the outlet channel via the first Channel is made possible. 13. The apparatus according to claim 12, characterized by means for connecting the other end of the second Enclosure with the other end of the first enclosure and a one-way check valve for automatically igniting the first generating means by the heat and / or the gas that is generated by the second generating device, but an ignition of the second Generating device by the heat and / or the gas generated by the first generating device. IU. Device according to claim 12, characterized by means for connecting the other end of the second enclosure to the other end of the first Enclosure, which one end of the second enclosure has at least one third channel, and one tearable membrane for sealing the third channel in said one end of the second enclosure, 409823/0261 _ 24 - a sympathetic ignition of the second generating device when the first generating device is ignited to prevent. 15. The device according to claim 14, characterized by a number of second and third channels, the number of which and size is selected on the basis of the desired pressure gain in the container. 16. inflator, characterized by a container for storing a gas under pressure with an opening adjacent its one end, -an elongated, substantially cylindrical valve housing, which is arranged inside the container and one end of which extends partially into the opening in the Container extends and is sealed with this, which housing is in fluid communication with an elongated chamber is provided with the mentioned opening in the container and is adjacent to a first radial channel has a central portion thereof and a second radial channel adjacent its other end, a slidable shuttle valve that is inside the chamber is arranged in the valve housing and one end of which with said one end of the housing between the first channel and the opening in the container is sealed to provide fluid communication therebetween to prevent gas flow out of the container, the other end of the Valve blocks the second channel through the valve housing, a second elongated, essentially cylindrical 409823/0261 cal housing is arranged within the container, one end of which with the mentioned other end of the Valve housing is connected, which second housing has at its one end a chamber which is in Is in fluid communication with the chamber in the valve housing, a flammable device within the aforementioned Chamber in the second housing for increasing the pressure of the stored within the container Gas is arranged, and an explosive capsule located within the second housing adjacent the pressure intensifying device is arranged to ignite the same, wherein the pressure generated by the boosting device directed against the other end of the valve in order to break the mentioned seal and the valve to move to said one end of the valve housing. 17. The device according to claim 16, characterized in that the valve housing means for stopping the movement of the valve with its other end between the first and the second channel, so that the combustion products the pressure booster device into the container via the second channel in the valve housing reach to increase the pressure of the gas in this, and the stored gas from the container through the first channel exits around said one end of the valve and through said opening in the container flows 409823/0261 18, device according to claim 17, characterized in that the inner diameter of the valve housing at one end thereof is smaller than the inner diameter at its other end, the outer diameter of the
mentioned ends of the valve approximately equal to the
adjacent inner diameters of the valve housing
are and wherein said means for stopping the
Movement of the valve through a shoulder between
the mentioned sections of different diameters are formed in the valve housing. 19. The apparatus according to claim 16, characterized in that said valve is sealed with one end of said housing in that the circumference of the
one end of the valve is welded or brazed to the inner surface of the valve housing. 20, device according to claim 16, characterized in that the valve housing has a number of first radial channels adjacent to its central part, the number and size of which for determining the escape speed
of the stored gas can be selected from the container. 21, device according to claim 16, characterized in that the valve housing has a number of second radial
Has channels adjacent its other end, the number and size of which determine the gain rate of the
Determined pressure in the container. 409823/0261 22. The device according to claim 16, characterized in that that the valve with the mentioned one end of the housing by undercutting the area between the periphery of one end of the valve and the inner surface of the valve housing is sealed. 409823/0261