DE102013208260A1 - Device and method for opening a gas container closure for a gas container - Google Patents

Abstract

The invention relates to a device (101) for opening a gas container closure (105) for a gas container (110). The device (101) comprises a mass (120) which can be moved between a rest position (136) and an opening position (150) for opening the gas container closure (105). The device (101) also has a guide device (125) with a first end (140) and a second end (145) opposite the first end (140), the first end (140) being connected to the ground (120) and the second end (145) is adapted to be rotatably connected to a wall element (115). Furthermore, the guide device (125) is designed to guide a movement of the mass (120) between the rest position (136) and the open position (150) along an arc (155). Furthermore, the device (101) has a triggering device (130) which is designed to trigger the movement of the mass (120) in response to a triggering signal.

Description

State of the art

The present invention relates to a device for opening a gas container closure for a gas container for a vehicle and to a method for opening a gas container closure for a gas container for a vehicle.

A gas pressure vessel in which, for example, gas is stored for filling an airbag or airbag of a vehicle is closed, for example, by a membrane. There are cold gas generators with conventional squibs for opening a gas pressure vessel. There are several ways to open the pressure vessel. On the one hand, for example, a pressure wave is generated which runs from one end to the other end of the gas pressure vessel and destroys a membrane there. On the other hand, the squib can generate heat that destroys the membrane.

Disclosure of the invention

Against this background, an improved apparatus for opening a gas container closure for a gas container as well as an improved method for opening such a gas container closure according to the main claims are presented with the approach presented here. Advantageous embodiments emerge from the respective subclaims and the following description.

To open a gas container closure of a gas container, a mass can be used. The mass can be accelerated by a triggering device to then meet in an arcuate movement of the gas container closure. Due to the impact of the mass on the gas container closure, the gas container can be opened.

In the present case, an apparatus for opening a gas container closure for a gas container for a vehicle is presented, the device having the following features:
a mass movably disposed between a rest position and an opening position for opening the gas container shutter;
a guide means having a first end and a second end opposite the first end, the first end being connected to the ground and the second end being adapted to be rotatably connected to a wall member, the guide means being adapted to cause movement of the To guide mass between the rest position and the opening position along an arc; and
a triggering device, which is designed to trigger the movement of the mass in response to a trigger signal.

Under a gas container closure can generally be understood a membrane or rupture disc. By means of such a gas container closure, a gas container can be permanently sealed gas-tight.

A gas container may, for example, be understood as meaning a gas pressure container which is filled with a gas, for example a cold gas. Such a gas container can be used, for example, in airbag systems for vehicles. By means of such a gas container, a gas can be permanently provided.

A mass can be understood to mean a rigid body which can be accelerated by means of a force impulse so that the gas container closure is opened by the impact of the mass on the gas container closure. Such a mass may advantageously be a sphere or hemisphere or have a conical or cylindrical shape. Also, the mass can be designed as a cuboid. A provided for hitting the gas container closure surface of the mass may be blunt, for example, rounded or flattened, or executed pointed or edged. For example, the mass may be metal. By means of such a mass of power surge can be transmitted to the gas container closure particularly effective.

Under a guide device, for example, a lever arm can be understood. In this case, one end of the lever arm can be fixedly connected to the mass and another end of the lever arm can be rotatably attached to a support structure, for example a wall element. By such a guide device can be ensured that the accelerated by the impulse mass is directed to a predetermined breaking point of the gas container closure.

Under a triggering device can generally be understood a device that generates a strong pressure when triggered by a trigger signal, which is transferable to the ground. The trigger signal may be an electrical signal. For example, the trigger signal may be generated in response to an impact of a vehicle on an obstacle. A triggering device may be, for example, a squib. When igniting such a squib, a pressure build-up is used to accelerate the mass. By means of such a squib, a necessary energy for accelerating the mass can be provided permanently. Alternatively, as Triggering device, a spring element are used, which is formed when triggered by the trigger signal to transmit a spring force to the ground.

According to one embodiment, a squib can be used as the triggering device. Such a squib is inexpensive and long-term ready for use.

Advantageously, a simple handling of a pressure vessel can be achieved if the triggering device is inserted into a receiving location provided for the triggering device only after the pressure vessel has been closed by a gas container closure, for example a membrane. The triggering device is designed to accelerate by its pressure build-up a mass which is thrown against the gas container closure. According to an embodiment in which the triggering device is realized as a squib, a large effect of the explosive charge of the squib can be achieved if the mass lies directly in front of an exit opening of the squib.

The device may comprise the wall element or be connected to the wall element. In this case, the second end of the guide device can be rotatably connected to the wall element. A wall element may, for example, be understood as a pressure-resistant metal casing or plastic casing arranged around the gas container or adjoining an outlet opening of the gas container. Such a wall element is easy to manufacture and very stable.

Furthermore, the wall element can have a wall recess, wherein the triggering device can be arranged in the wall recess. Under a wall recess, for example, a blind hole or a through hole, for example, made by a cylindrical cutout in the wall element to be understood. By means of such a wall recess, an assembly of the triggering device can be carried out independently of a mounting of the gas container. If the triggering device can be pressed into the wall recess, the assembly of the triggering device proves to be particularly simple. If the mass is arranged so that the mass in the rest position at least partially closes the wall recess, then a pressure wave generated by a pyrotechnic triggering device can be concentrated on the mass.

In addition, the wall element may be part of an outlet channel for guiding a gas flowing out of the gas container. Such an outlet channel may for example be a leading to an airbag pressure channel. In particular, in the case of adaptive airbags, such an outlet channel can be provided with an intermediate valve, by means of which the outlet channel can be opened or closed. By means of such an outlet channel it is ensured that the gas flows into a container connected to the outlet channel.

The guide means may be adapted to guide the movement of the mass between the rest position and the opening position along a circular arc. The advantage of moving along such a circular arc is that the mass can be guided by a guide device in the form of a simple lever.

Another embodiment of the presented approach provides a gas container device having the following features:
a gas container closure for closing a gas container for storing a gas; and
a device for opening a gas container, wherein the mass of the device is designed to open the gas container closure.

A gas container device can be understood, for example, as a cold gas generator or a device for triggering a vehicle airbag. By means of such a gas container device all components required for triggering the airbag can be arranged in the smallest space.

The gas container device may further comprise the gas container. By means of such a gas container, in particular, a gas volume necessary for the deployment of an airbag can be permanently provided.

The gas container closure can be provided with a predetermined breaking point, in particular with a cross-shaped predetermined breaking point. In this case, the gas container closure may be designed to be opened in the opening position of the mass at the predetermined breaking point. By a predetermined breaking point, for example, grooves or embossing can be understood, which serve as a guideline for later fault lines. By a cross-shaped predetermined breaking point, for example, a predetermined breaking point can be understood in which all depressions converge in the middle of the gas container closure. By means of such a predetermined breaking point it is ensured that the gas container closure is actually opened on impact of the mass on the gas container closure.

The gas container closure may be arranged between the outlet channel and the device for opening a gas container closure and the gas container. This can cause the leakage Gas can be prevented from the gas tank in the outlet channel.

According to a further embodiment, the second end of the guide device may be arranged adjacent to an outer edge region of the gas container closure. As a result, space can be saved and it can be achieved as vertical as possible impact of the mass on the gas container closure.

Finally, the present approach provides a method for opening a gas container closure for a gas container for a vehicle, the method comprising the following steps:
Initiating a movement of a mass movably disposed between a rest position and an open position for opening the gas container closure; and
Guide the movement of the mass between the rest position and the opening position along an arc to open the gas container closure.

The invention will now be described by way of example with reference to the accompanying drawings. Show it:

1 a schematic representation of a gas container device according to an embodiment of the present invention;

2 a schematic representation of a gas container, a gas container closure and an outlet channel according to an embodiment of the present invention;

3 a schematic representation of a gas container closure according to an embodiment of the present invention;

4 a cross-sectional view of a gas container device according to an embodiment of the present invention; and

5 a flow diagram of a method for opening a gas container closure for a gas container according to an embodiment of the present invention.

In the following description of favorable embodiments of the present invention, the same or similar reference numerals are used for the elements shown in the various figures and similar acting, with a repeated description of these elements is omitted.

1 schematically shows a gas container device 100 with a device 101 for opening a gas container closure 105 for a gas container 110 according to an embodiment of the present invention. The gas tank device 101 includes the gas container closure 105 , also called rupture disc, the gas container 110 , also called pressure vessel or tank, a wall element 115 , also called wall, a mass 120 , a leadership facility 125 , For example, a lever arm, and a triggering device 130 , in particular a squib.

The crowd 120 , the leadership facility 125 and the triggering device 130 form according to one embodiment, the device 101 for opening the gas container closure 105 ,

According to one embodiment, this is in the gas container 110 stored gas for filling an airbag 135 , in particular an airbag used. The airbag 135 has an opening which is an opening of the gas container 110 is facing. Between the opening of the gas container 110 and the opening of the airbag 135 is the gas container closure 105 arranged. By means of the gas container closure 105 are the gas container 110 and the airbag 135 gas-tightly separated. Will the gas container closure 105 opened, so can in the gas tank 110 stored gas in the airbag 135 flow out.

The crowd 120 is spherical according to this embodiment. The diameters of the mass 120 along a transverse axis, a longitudinal axis, which is a longitudinal axis of the guide device 125 can correspond, and a vertical axis of the mass 120 can be the same or nearly the same size. Thus, the mass 120 be designed as a compact body.

The crowd 120 points in a resting position 136 a maximum vertical distance to the gas container closure 105 on, wherein the maximum vertical distance, for example, slightly more than a length of the guide device 125 can correspond. In the resting position 136 is a longitudinal axis of the guide device 125 parallel to a longitudinal axis of the gas container 110 , The length of the guide device 125 and a lateral distance of the guide device 125 to the gas container closure 105 are chosen so that the mass 120 in an open position 150 (in 1 indicated by dashed lines) on a predetermined breaking point, here the center of the gas container closure 105 , hits. Will be in the rest position 136 located mass 120 through the triggering device 130 accelerated, the mass moves 120 in the open position 150 , causing the gas container closure 105 can be pierced. In the opening position 150 shows the mass 120 a minimum vertical distance to the plane of the gas container closure 105 on.

A first end 140 the management facility 125 is with the crowd 120 connected, wherein an imaginary continuation of a longitudinal axis of the guide device 125 through the center of the mass 120 runs. The management device 125 and the crowd 120 can be rigidly connected. Also, the guide device 125 and the crowd 120 be executed in one piece. A first end 140 opposite second end 145 the management facility 125 is adjacent to an outer edge region of the gas container closure 105 arranged. The second end 145 is also rotatably mounted so that moving the mass 120 between the resting position 136 and the opening position 150 is possible. There is also a backward movement of the mass 120 from the opening position 150 in the resting position 136 possible, in particular if the mass 120 for example, by a from the gas tank 110 escaping gas is thrown back.

Between the resting position 136 and the opening position 150 is the crowd 120 along a bow 155 movable, with the bow 155 at the in 1 illustrated embodiment corresponds to a circular arc. A length of the bow 155 for example, corresponds to between 20 and 40 percent, here approximately 25 percent of a circumference of a circle, wherein a radius of the circle is the length of the guide device 125 equivalent.

The wall element 115 is in 1 by a parallel to the longitudinal axis of the guide device 125 shown running line. The triggering device 130 is schematically between the wall element according to this embodiment 115 and the crowd 120 arranged. Alternatively, the triggering device 130 in a recess or passage opening of the wall element 115 be arranged. The second end 145 the management facility 125 can be rotatable on the wall element 115 be attached. The wall element 115 may for example be part of an outlet channel or form a support for the gas container device.

The triggering device 130 is in 1 indicated by a small rectangle, wherein the center of the triggering device 130 at the same height as the center of mass 120 located. By the triggering device 130 A pressure can be generated on the mass 120 acts and accelerates, so the gas container closure 105 upon impact of the mass 120 on the gas container closure 105 is destroyed and one in the gas tank 110 stored gas in the airbag 135 can flow out. By the outflow of the gas, the airbag 135 unfolded.

According to one embodiment, the triggering device 130 a pyrotechnic element that ignites in response to an electrical trip signal and generates a pressure wave. The triggering device 130 and the mass in the rest position 136 are arranged to each other so that the pressure wave to the mass 136 meets and the crowd 136 accelerated. The movement of the mass resulting from the acceleration 136 runs, guided by the management device 125 , along a path through the arch 155 characterized movement trajectory to the gas container closure 105 ,

2 shows a gas container 110 , a gas container closure 105 and an exit channel 260 , Also called outlet or outlet, according to an embodiment of the present invention. The exit channel 260 For example, it may be an in 2 not shown airbag 135 to lead. The gas container closure 105 is between the exit channel 260 and the gas container 110 arranged, with the gas tank 110 and the exit channel 260 on opposite sides of the gas container closure 105 are located. This in 1 shown wall element may be part of the outlet channel 260 be.

The gas container 110 has the shape of an elongated cylinder, wherein the gas container closure 105 facing away from the first end of the gas tank 110 Semicircular rounded. A second end region of the gas container opposite the first end region 110 indicates a gas container closure 105 towards tapered diameter, with a minimum diameter of the gas container 110 a diameter of the gas container closure 105 equivalent.

By means of the gas container closure 105 are the gas container 110 and the exit channel 260 fluidly separated from each other.

A diameter of the outlet channel 260 corresponds approximately to the diameter of the gas container closure 105 , Will the gas container closure 105 destroyed, for example by means of in 1 shown device 101 for opening a gas container closure, flows into the gas container 110 contained gas via the outlet channel 260 out, causing the airbag 135 can be inflated, provided the outlet channel 260 with the airbag 135 connected is.

3 shows a gas container closure 105 according to an embodiment of the present invention. The gas container closure 105 is circular and has a predetermined breaking point 365 on. The breaking point 365 comprises two mutually perpendicular notches, wherein a length of the notches the diameter of the gas container closure 105 equivalent. Continue crossing the indentations are at the center of the gas container closure 105 so that the breaking point 365 has the shape of a cross. Thus, the gas container closure 105 be divided into four equal-sized circle segments, especially when the accelerated mass, as determined by 1 is described on the center of the gas container closure 105 incident. For example, the gas container closure 105 as a rupture disk with the predetermined breaking point 365 be executed forming imprints.

4 shows a gas container device 100 according to an embodiment of the present invention. In contrast to 1 is in 4 another wall element 415 shown on a wall element 115 opposite side of the gas container closure 105 parallel to the wall element 115 is arranged. By their arrangement form the wall element 115 and the other wall element 415 for example, an outlet channel 260 from, as he based on 2 is described. The wall elements 115 . 415 can be connected to each other and executed, for example, in one piece.

The wall element 115 has a wall recess 475 on, in which the triggering device 130 complete and the mass 120 in the in 4 shown rest position 136 at least partially arranged. The wall recess 475 is executed according to this embodiment as a through hole into which the triggering device 130 fitted or inserted. The triggering device points to one of the mass 120 opposite side on two terminals, over the triggering device 130 For example, a trigger signal can be supplied. The triggering device 130 is designed as a squib according to this embodiment and is configured to ignite in response to a receipt of the trigger signal. By ignition of the triggering device 130 a pressure wave is generated and through the wall recess 475 to the crowd 120 directed. The wall element 115 points to one of the guide device 125 facing away from a supernatant. The supernatant corresponds approximately to a thickness of the guide device 125 , In this way, one of the guide device 125 opposite end of the mass 120 adjoin the supernatant so that the wall recess 475 as close as possible in the rest position 136 located mass 120 can be completed. A vertical distance of the wall recess 475 to the gas container closure 105 corresponds to at least the length of the guide device 125 , The management device 125 can be designed as a lever arm. A length of the guide device can be approximately half the diameter of the gas container closure 105 represent.

The wall element 415 has a projection on which an outer edge region of the gas container closure 105 so that the gas container closure 105 from the supernatant of the wall element 415 and the guide device 125 or one to the second end of the guide means 125 is supported adjacent retaining element.

The first end of the guide device 125 is flush with a the outlet channel 260 facing bottom surface of the wall recess 475 from. Between the second end of the guide device 125 and the gas container closure 105 For example, a gap may be formed so as to move the guide means 125 around a pivot point of the second end is made possible. This can be an outlet channel 260 facing corner of the second end of the guide device 125 or the second end to be rounded off. Through the second end can run a rotation axis to the guide device 125 can be swiveled.

During a movement of the mass 120 from the in 4 shown rest position 136 to an opening position in which the mass 120 on the gas container closure 105 meets or hits, leads the leadership institution 125 a pivoting movement about the at the second end of the guide means 125 arranged pivot point. According to this embodiment, the pivotal movement guides the guide device 125 from a starting position, in which a longitudinal axis of the guide device 125 transverse to a plane of the gas container closure 105 is, to an end position in which the longitudinal axis of the guide device 125 at least approximately along a plane of the gas container closure 105 is aligned.

The structure and an opening mechanism of an embodiment of a device will be described below 101 for opening a gas container closure for a gas container.

Between a pressure vessel, for example a tank, and an outlet opening 260 to one in 4 Airbag, not shown, is a rupture disk 105 appropriate. The outlet opening 260 to the airbag can be released directly or be opened or closed by an intermediate valve (not shown), whereby an adaptive airbag can be realized.

The rupture disk 105 has imprints, for example in the form of grooves that serve as a guideline for the later fault lines. In the middle of the disc 105 all wells go together as it is in 3 is shown.

In the middle of the disc 105 beats the crowd 120 on, by one of the triggering device 130 accelerated explosive charge is accelerated. The ignition of the explosive charge via a conventional from the triggering device 130 included squib 130 in a wall 115 outside the tank 110 is pressed. The crowd 120 is via a lever arm 125 also with the wall 115 connected. When igniting the squib 130 a sudden build-up of pressure is used to the mass 120 to accelerate. The accelerated mass 120 is through the lever arm 125 on the middle of the rupture disk 105 flung, which has its weakest spot here. After smashing the rupture disk 105 becomes the mass 120 according to an embodiment by escaping gases back to a rest position 136 pushed.

A cold gas generator with a rupture disk 105 as he according to an embodiment in 4 can be used, for example, for airbag applications.

5 shows a flowchart of a method 500 for opening a gas container closure for a gas container, such as in 1 or 4 is shown, according to an embodiment of the present invention. In a first step 501 there is a triggering of a movement of a mass. In a second step 503 a movement of the mass from a rest position into an opening position for opening the gas container closure takes place along an arcuate movement trajectory.

The embodiments described and shown in the figures are chosen only by way of example. Different embodiments may be combined together or in relation to individual features. Also, an embodiment can be supplemented by features of another embodiment. Furthermore, method steps according to the invention can be repeated as well as carried out in a sequence other than that described. If an exemplary embodiment comprises a "and / or" link between a first feature and a second feature, then this is to be read so that the embodiment according to one embodiment, both the first feature and the second feature and according to another embodiment either only first feature or only the second feature.

Claims (10)

Contraption ( 101 ) for opening a gas container closure ( 105 ) for a gas container ( 110 ) for a vehicle, the device ( 101 ) has the following characteristics: a mass ( 120 ) between a resting position ( 136 ) and an opening position ( 150 ) for opening the gas container closure ( 105 ) is arranged movable; a management facility ( 125 ) with a first end ( 140 ) and a first end ( 140 ) opposite second end ( 145 ), the first end ( 140 ) with the mass ( 120 ) and the second end ( 145 ) is adapted to rotate with a wall element ( 115 ), the management device ( 125 ) is adapted to a movement of the mass ( 120 ) between the rest position ( 136 ) and the opening position ( 150 ) along an arc ( 155 ) respectively; and a triggering device ( 130 ) which is adapted to move the mass in response to a triggering signal ( 120 ). Contraption ( 101 ) according to claim 1, with the wall element ( 115 ), the second end ( 145 ) of the management facility ( 125 ) rotatable with the wall element ( 115 ) connected is. Contraption ( 101 ) according to one of the preceding claims, in which the wall element ( 115 ) a wall recess ( 475 ), wherein the triggering device ( 130 ) in the wall recess ( 475 ) is arranged. Contraption ( 101 ) according to one of the preceding claims, in which the wall element ( 115 ) Part of an exit channel ( 260 ) for guiding one out of the gas container ( 110 ) is outgoing gas. Contraption ( 101 ) according to one of the preceding claims, in which the guide device ( 125 ) is adapted to the movement of the mass ( 120 ) between the rest position ( 136 ) and the opening position ( 150 ) along a circular arc ( 155 ) respectively. Gas container device ( 100 ) having the following features: a gas container closure ( 105 ) for closing a gas container ( 110 ) for storing a gas; and a device ( 101 ) for opening a gas container ( 110 ) according to one of the preceding claims, wherein the mass ( 120 ) of the device ( 101 ) is formed to the gas container closure ( 105 ) to open. Gas container device ( 100 ) according to claim 6, with the gas container ( 110 ). Gas container device ( 100 ) according to claim 6 or 7, wherein the gas container closure ( 105 ) with a predetermined breaking point ( 365 ), in particular provided with a cross-shaped predetermined breaking point, the gas container closure ( 105 ) is designed to be in the open position ( 150 ) the crowd ( 120 ) at the predetermined breaking point ( 365 ) to be opened. Gas container device ( 100 ) according to one of claims 6 to 8, wherein the gas container closure ( 105 ) between the exit channel ( 260 ) of the device ( 101 ) for opening a gas container closure ( 105 ) and the gas container ( 110 ) is arranged. Procedure ( 500 ) for opening a gas container closure ( 105 ) for a gas container ( 110 ) for a vehicle, the method comprising the steps of: triggering ( 501 ) a movement of a mass ( 120 ) between a resting position ( 136 ) and an opening position ( 150 ) for opening the gas container closure ( 105 ) is arranged movable; and lead ( 503 ) of the movement of the mass ( 120 ) between the rest position ( 136 ) and the opening position ( 150 ) along an arc ( 155 ) to the gas container closure ( 105 ) to open.

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