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CN212500257U - Airbag and combination system for a vehicle - Google Patents

Airbag and combination system for a vehicle Download PDF

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Publication number
CN212500257U
CN212500257U CN202022066854.3U CN202022066854U CN212500257U CN 212500257 U CN212500257 U CN 212500257U CN 202022066854 U CN202022066854 U CN 202022066854U CN 212500257 U CN212500257 U CN 212500257U
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CN
China
Prior art keywords
airbag
neck
inflated
gas bag
folded
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Active
Application number
CN202022066854.3U
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Chinese (zh)
Inventor
齐吉浩
袁明
陈志远
金信烜
刘俊
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Yanfeng Automotive Safety Systems Co Ltd
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Yanfeng Automotive Safety Systems Co Ltd
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Priority to CN202022066854.3U priority Critical patent/CN212500257U/en
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Abstract

The present disclosure relates to an airbag and to a combined system for a vehicle, the airbag comprising a gas bag (2) having a neck (11) and a body (12), from which the gas bag can be inflated, the gas bag being configured such that, in an inflated and deployed state of the gas bag, a receiving space (13) is formed between the neck and the body, which receiving space passes through the gas bag in a horizontal direction transverse to the direction of ejection of the gas bag, and, starting from the collapsed state of the gas bag, the body can at least cross over from above an imaginary line extending in the receiving space in the horizontal direction at a predetermined height during inflation and deployment of the gas bag. Such an airbag may have improved safety.

Description

Airbag and combination system for a vehicle
Technical Field
The present disclosure relates to the field of safety technology, and more particularly, to an airbag, in particular for a vehicle, and a combined system for a vehicle.
Background
Airbags are widely used in modern vehicles as safety protection measures in the event of an emergency situation of the vehicle, for example a collision or a rollover, in which the airbag of the airbag can be inflated, expanded and deployed in a short time. The airbag can generate a large impact force during inflation and deployment. Typically, in order to ensure the safety of the occupant of the vehicle, no protruding object is provided in front of and above the airbag in the direction of ejection, in the vicinity of the airbag, so that the ejected airbag hits the object, posing a safety risk.
Typically, for a passenger airbag of a vehicle, the passenger airbag is mounted in an instrument panel in front of a passenger seat in a vehicle traveling direction, and may be mounted, for example, above a glove box of the instrument panel and below a molding surface of the instrument panel.
As vehicle technology develops, more and more functions tend to be integrated on an electronic screen. For example, the dashboard center control screen may be disposed substantially in a laterally intermediate portion of the dashboard for easy manipulation and viewing by the driver. Due to the trend of electric vehicles and intelligent driving in the future, the center control screen may be made larger to show high technology and provide entertainment atmosphere, and to meet the user's demand for electronic screen operation, for example, the center control screen may be made higher than the model surface of the instrument panel in a floating manner and extend to the copilot side as much as possible. Such a central control screen can provide not only driver assistance, but also entertainment or other assistance to the copilot.
In the prior art, it is often necessary to avoid the central control panel extending into the functional range of the passenger airbag when designing the central control panel. In other words, the width of the center screen may be limited due to the presence of the passenger airbag. In general, the central control screen can only extend up to the boundary of the passenger airbag at most, in order to prevent the passenger airbag from striking the central control screen during the firing and deployment. For example, when a through screen is used, the airbag may impact the suspension screen to cause splashes and damage passengers, or the airbag may not be smoothly deployed and thus it is difficult to provide a suitable protection effect.
SUMMERY OF THE UTILITY MODEL
It is an object of the present disclosure to provide an airbag and a combined system for a vehicle comprising such an airbag, wherein the airbag may have an improved safety.
According to a first independent aspect of the present disclosure, an airbag is proposed, which comprises a housing, an inflator accommodated in the housing, and an airbag fixedly mounted on the housing, the airbag having a neck portion and a body portion, the airbag being inflatable from the neck portion, the airbag being configured such that, in an inflated and deployed state of the airbag, an accommodation space is formed between the neck portion and the body portion, the accommodation space passing through the airbag in a horizontal direction transverse to a direction of ejection of the airbag; and starting from the folded state of the airbag, the main body part can at least cross over an imaginary line extending in the horizontal direction in the accommodating space at a predetermined height from above during inflation and deployment of the airbag.
The benefits of such an airbag may include: the airbag is simple in structure and can achieve improved safety.
In some embodiments, the inflator may be a pyrotechnic gas generator. It is also possible that the inflator may be a chemical reaction based inflator in which two separate components react chemically upon contact to rapidly produce gas.
In some embodiments, the lowermost vertex of the accommodation space may have a distance of no more than 50mm, for example no more than 40mm, 30mm, 20mm or 10mm, from an imaginary line.
In some embodiments, starting from the folded state of the airbag, the main body part can at least pass over the lowermost point of the receiving space from above during the inflation and deployment of the airbag.
In some embodiments, the airbag is configured such that, starting from its folded state, the main body part can be moved over the half of the receiving space which is located below the neck part during the inflation and deployment of the airbag.
In some embodiments, the neck has a circular or elliptical cross-section, or a curved quadrilateral cross-section in the inflated and deployed state of the airbag.
According to a second, independent aspect of the present disclosure, an airbag is proposed, which comprises a gas bag which is provided in a predetermined region with a flexible pulling element which is configured to restrict a cross-sectional shape of the gas bag in the predetermined region in an inflated and deployed state of the gas bag. By means of this restraint, the airbag can be at least reduced, in particular completely prevented, from inflating with protruding objects during inflation and deployment.
In some embodiments, the second aspect may be combined with the first aspect.
In some embodiments, a flexible pulling element can be arranged inside the neck in an end region of the neck adjacent to the body, which pulling element can be configured to constrain the cross-sectional shape of the neck in the inflated and deployed state of the gas bag.
In some embodiments, the pulling element may be a pulling strap configured to be straightened in the inflated and deployed state of the air bag.
In some embodiments, in the inflated and deployed state of the airbag, the draw tape may extend in a vertical plane in the neck and be centrally disposed in the neck in the horizontal direction.
According to an independent third aspect of the present disclosure, an airbag is suggested, the airbag comprising a bag, the airbag further comprising guiding means configured to guide the bag during inflation and deployment of the bag.
In some embodiments, the third aspect may be combined with the first and/or second aspect.
In some embodiments, the guide means may be flexibly foldable, the folded airbag being accommodated in a folded guide means which is convertible from a folded state to an unfolded state in which the guide means forms a guide sleeve.
In some embodiments, the guide sleeve may have a uniform extension with the neck in the expanded and deployed state.
In some embodiments, the guide sleeve may be tightened over the neck in the inflated and deployed state of the air bag.
In some embodiments, the guide may include at least one Z-fold.
It is possible that the airbag can be folded into an accordion-like structure by a plurality of zigzag folds, which enables the deployment trajectory of the airbag to be controlled such that the airbag can jump over a protruding object, such as a floating center screen, at the beginning of deployment.
In some embodiments, the guide may be made from a sheet of material that is folded in half and sewn into a cylinder on both sides after folding.
In some embodiments, the guide means may be made from two sheets, one of which is stitched at its longitudinal edges to form a cylinder open at both ends, the other of which is stitched to the cylinder at one end of the cylinder to form the base of the cylinder.
In some embodiments, the guide means may be made by two side panels, each sewn to one lateral edge of an intermediate main panel, forming a cylinder, each side panel forming one side of the cylinder, and one intermediate main panel forming the other two mutually opposite sides and the bottom of the cylinder.
In some embodiments, pull tapes are provided on the inner sides of the two side portions formed by the central main panel, respectively.
According to an independent fourth aspect of the present disclosure, an airbag is suggested, comprising an airbag, which in a folded state comprises at least a plurality of Z-folds.
In some embodiments, the fourth aspect may be combined with at least one of the foregoing three aspects.
In some embodiments, the gas bag comprises a plurality of Z-folds in the folded state at least in the neck.
In some embodiments, the gas bag may comprise a plurality of Z-folds in the neck portion and at least in a section of the body portion adjacent to the neck portion in the folded state.
In some embodiments, the gas bag may comprise only a Z-fold in the folded state, or the gas bag may be folded in a section of the body portion facing away from the neck portion.
It is possible that the gas bag can be moved in the guide device in a specific path starting from the folded state in the initial stage of the deployment by means of the guide device, so that the gas bag in the form of a folded bag can be guided and prevented from striking a projecting object, for example a floating central screen, during the inflation and deployment.
In some embodiments, the ratio of the length of the neck to the equivalent radius is greater than or equal to 2, such as greater than or equal to 3, 4, 5, or 6.
The four individual aspects mentioned above may be combined with each other as desired, for example any two aspects may be combined with each other, or any three aspects may be combined with each other, or all together.
The present disclosure also includes a combination system for a vehicle, the combination system including a vehicle component, the combination system including an airbag according to any one of the embodiments of the present disclosure disposed in the vehicle component.
In some embodiments, an object is located on the vehicle component in front of the airbag in the direction of its projection, said object being located in the receiving space formed by the airbag in the inflated and deployed state of the airbag, and the main body of the airbag passes over said object from above during the inflation and deployment of the airbag, starting from the folded state of the airbag.
In some embodiments, the airbag is a co-driver airbag.
In some embodiments, the vehicle component is an instrument panel and the object is a display screen disposed on the instrument panel and extending upwardly from the instrument panel.
In some embodiments, the display screen is a floating center control screen.
In some embodiments, the airbag may include a pull strap for restraining a cross-sectional shape of a neck portion of the airbag in an inflated and deployed state of the airbag, and the pull strap may be perpendicular to the windshield and/or coplanar with the central control panel in the inflated and deployed state of the airbag.
In some embodiments, it is possible to install a floating central control panel in front of the passenger airbag in the direction of ejection (or behind it in the vehicle coordinate system), wherein the airbag can jump over the central control panel after the airbag has ignited, avoiding breaking the screen, and the airbag can also provide normal protection for the passenger sitting in the passenger seat after inflation and deployment. This way, a completely new possibility is provided for vehicle manufacturers when designing interior trim and dashboards, which can significantly improve the technical feel in the vehicle and the entertainment of the occupants.
The vehicle may be a passenger or truck, in particular an automated vehicle, for example an autonomous vehicle.
The individual features mentioned above and those yet to be mentioned below and those which can be derived from the drawings can be combined with one another as desired, provided that the individual features combined with one another are not mutually inconsistent.
Drawings
The present invention will be described in more detail below with reference to the accompanying drawings by way of embodiments, but the present invention is not limited to these specific embodiments. Wherein:
fig. 1 is a schematic view of an airbag according to an embodiment of the present invention in an inflated and deployed state.
Fig. 2 and 3 are schematic views of materials used for manufacturing an airbag of an airbag.
Fig. 4 is a schematic view of an airbag according to a second embodiment of the invention in an inflated and deployed state.
Fig. 5 and 6 are schematic views of an airbag according to a third embodiment of the present invention during inflation and deployment and in an inflated and deployed state.
Fig. 7 is a schematic illustration of the airbag and the guide device of the airbag according to the third embodiment in the folded state.
Fig. 8 to 10 each show a schematic illustration of an embodiment for producing a guide device.
Fig. 11 shows a schematic view of a variant of the guide device according to the embodiment of fig. 10.
Fig. 12 to 14 show a schematic view of an airbag according to a fourth embodiment of the invention.
Figure 15 shows an exploded view of an airbag as a module.
Detailed Description
Fig. 1 is a schematic cross-sectional view of an airbag 5 according to an embodiment of the invention in an inflated and deployed state, wherein the cross-section is defined by the central initiation point and the direction of ejection of the airbag. The cross-section may be a vertical plane substantially parallel to the longitudinal direction of the vehicle. The airbag 5 shown in fig. 1 is configured as a passenger airbag. It is also possible, for example, that the airbag 2 can be a driver airbag or a side airbag.
The vehicle may have a windshield 3 and an instrument panel 4. A central screen 1 can be arranged on the dashboard 4, and the central screen 1 can project upward from the profile of the dashboard 4, for example in the form of a floating screen. The central control screen 1 can extend in the width direction of the vehicle or in a horizontal direction transversely to the ejection direction of the passenger airbag into the functional range of the passenger airbag. According to the state of the art, the central control panel 1, which projects upward from the profile of the instrument panel 4, usually extends at most only to the side of the region of action of the passenger airbag, in order to prevent the passenger airbag from colliding with the central control panel 1 when it is ejected, which could result in safety risks, for example, the central control panel 1 could be crushed or the airbag 2 could not be deployed as intended for the safety protection of the passenger sitting in the passenger seat. The instrument panel 4 may have a mounting space below its molding surface for accommodating an airbag 5 as a mounting module.
The airbag 5 may include a housing, an airbag 2, and an inflator that may be positioned on or attached to the housing. The airbag 2 may be accommodated in the housing in a folded state and may be inflated and deployed when inflated by an inflator, up to a state as shown in fig. 1. Typically, the inflator may be a pyrotechnic gas generator that is fixedly centrally mounted in the bottom of the housing of the airbag.
The airbag 2 may have a neck portion 11 and a body portion 12. In the inflated and deployed state of the airbag 2, an accommodation space 13 may be formed between the neck portion 11 and the main body portion 12, the accommodation space 13 passing through the airbag 2 in a horizontal direction transverse to the direction of ejection of the airbag 2 (in the transverse direction of the vehicle in the embodiment shown in fig. 1). The central screen 1 can be accommodated at least partially in this accommodation space 13, as seen in the sectional view shown in fig. 1. In the above-described horizontal direction (for example, in the lateral direction of the vehicle), the center screen 1 may occupy a part of the width of the accommodating space 13, or may penetrate through the entire accommodating space 13.
According to the present invention, starting from the folded state of the airbag 2, during inflation and deployment of the airbag 2, the main body 12 can at least cross over an imaginary line extending in the horizontal direction (vehicle width direction) in the receiving space 13 at a predetermined height from above. The imaginary line may for example have a distance of less than 50mm, for example 10mm to 40mm, for example 20mm to 30mm, from the lowest apex of the receiving space 13. Advantageously, starting from the folded state of the airbag 2, the body 12 can at least pass over the lowermost point of the receiving space 13 from above during the inflation and deployment of the airbag 2. It is particularly advantageous if, starting from the folded state of the airbag 2, the main body 12 can be moved from above over the half of the receiving space 13 located below the neck during inflation and deployment of the airbag 2. Therefore, the airbag 2 does not collide with the center screen 1 during collision and deployment.
Fig. 2 is a schematic view of three sheets for making the airbag 2 of fig. 1, in particular, the airbag 2 may comprise two side panels 2a, 2b and an intermediate main panel 2c, said two side panels 2a, 2b may be respectively sewn to one of the two lateral edges of the main panel 2c and thus form the airbag 2. In some embodiments, not shown, the airbag 2 can also be formed by two side panels sewn to each other, each of which can form a half of the airbag 2.
Fig. 3 shows a plan view of a side panel according to an embodiment, which can be used, for example, as the side panel 2a, 2b shown in fig. 2. In an advantageous embodiment, the side panel may have an elongated portion and a main body portion, and the length of the elongated portion (the length of the neck 11) L2 may be greater than or equal to the length L1 as shown in fig. 1. The length L1 may be the distance from the central initiation point to a midpoint from the upper edge of the control panel 1 to a perpendicular to the windshield 3. The central initiation point may be defined as the intersection of the central normal of the airbag 5 as a module and the profiled surface of the instrument panel 4. The length L2 may be the length from the root of the side panel to the centerline of the transition of the elongated portion with the main body portion.
In the embodiment shown in fig. 2, the neck portion 11 of the airbag 2 may have a generally rectangular cross-section, such as a curved quadrilateral cross-section, in the inflated and deployed state of the airbag 2. In the case of an airbag formed from two side panels, the neck of the airbag may have a substantially circular or oval cross-section.
Advantageously, in the inflated and deployed state of the airbag 2, the length L2 of the neck portion 11 of the airbag 2 may be at least 2 times, in particular at least 3 times, the equivalent radius of the neck portion. The equivalent radius may be defined to satisfy the following equation:
π×R2×L2=V
where R represents the equivalent radius of the neck 11, L2 represents the length of the neck, and V represents the volume of the neck.
Fig. 4 is a schematic cross-sectional view of an airbag 5 according to a second embodiment of the invention in an inflated and deployed state. The second embodiment differs from the first embodiment as shown in fig. 1 primarily in that the airbag 5 comprises a flexible pulling element 6. The airbag 5 may otherwise be the same as or similar to the first embodiment, and therefore reference may be made to the description for the first embodiment. In the end region of the neck portion 11 of the gas sack 2 adjacent to the body portion 12, a flexible pulling element 6 can be arranged inside said neck portion 11, said pulling element 6 being configured to constrain the cross-sectional shape of said neck portion 11 in the inflated and deployed state of the gas sack 2. The arrangement of the pulling element 6 in the neck 11 can be particularly advantageous when the airbag 2 is composed of two side panels and has a circular or oval cross section in the region of the neck 11.
The pulling element 6 can be, for example, a net-like element which has a plurality of connections at the edges, which are connected to the bag body of the airbag 2 in the region of the neck 11. The mesh element may for example have a rectangular shape. For example, the tension element 6 can also be a cross-shaped element with four connections, which are connected to the bag body of the airbag 2 in the region of the neck 11. In a particularly simple embodiment, as shown in fig. 4, the pulling element 6 can be a pulling strap which is straightened out in the inflated and deployed state of the airbag 2. For example, the pull tape may extend substantially in a vertical plane in the neck 11 and be arranged centrally in the neck 11 in the horizontal direction. Advantageously, the pull strip, in the straightened condition, can be substantially perpendicular to the windscreen 3 and/or substantially coplanar with the central screen 3.
An airbag according to a third embodiment of the present invention will be described with reference to fig. 5 to 7, in which fig. 5 is a schematic view of the airbag during inflation and deployment, and fig. 6 is a schematic view of the airbag in an inflated and deployed state, wherein the cross section is defined by the central initiation point and the direction of ejection of the airbag. The cross section may be, for example, a vertical plane parallel to the longitudinal direction of the vehicle. For clarity, in fig. 6, the guide 10 is depicted in dashed lines. Fig. 7 is a schematic view of the flexible guide 10 in a folded state.
In a third embodiment, the airbag may comprise guiding means, in particular flexible guiding means 10, which are configured to guide the airbag 2 during inflation and deployment of the airbag. As shown in fig. 7, the guide 10 can be flexibly foldable, wherein the folded gas bag 2 is accommodated in the folded guide 10, which can be transferred from the folded state to the unfolded state in which it forms a guide sleeve. The guide means 10 can be made, for example, of the same or similar material as the airbag 2. The inner end of the guide 10 may be fixed to the housing of the airbag 5. First, the folded airbag 2 can be placed inside the guide 10, and then the guide 10 is folded, for example, Z-folded. The airbag 5 with the guide 10 can be installed as a module in the installation space of the instrument panel 4, for example. More specifically, for example, the airbag 2 may be first folded, then the folded airbag 2 is wrapped and loaded into the guide 10 configured as a guide sleeve, then the guide 10 is formed into a total wrap by several Z-folds, and then the total wrap may be loaded into the housing of the airbag 5. For example, the diameter, length and shape of the guide device 10 can be designed according to the installation position of the windshield 3, the floating central screen 1 and the passenger airbag so that its opening after deployment can pass over the upper edge of the floating central screen. Due to the presence of the guide device, the inflation and deployment process of the airbag 2 can be controlled, so that the airbag 2 does not impact the suspended central control panel 1 during inflation and deployment.
When the inflator of the airbag 5 is activated, the gas is rapidly charged into the airbag 2, and the airbag 2 during inflation and deployment can convert the guide 10 from the folded state to the deployed state. The guide device 10 can extend beyond the central screen 1 in the deployed state, and the gas bag 2 guided in the guide device 10 can pass beyond the central screen 1 until the state shown in fig. 6 is reached. Advantageously, the guide sleeve can have a uniform extension with respect to the neck 11 of the airbag 2, and in the inflated and deployed state of the airbag 2 the guide sleeve can be placed tightly on the neck 11. The flexible guide means 10 also make it possible to exert a restraining action on the gas sack 2 when the gas sack 2 is filled with gas and thus inflated and deployed, reducing the compression of the gas sack 2 on the central control panel 1.
In some embodiments, which are not shown, the guide device in the extended state may also not extend to and past the central control screen 1, but the outlet of the guide device is designed with regard to its height and outlet orientation such that the body part 12, which is ejected away from the outlet, can pass over the central control screen 1. In general terms, the guide means 10 can define an ejection trajectory for the air bag 2 which ensures that the air bag 2 does not touch a predetermined protruding object during inflation and deployment.
Fig. 8 to 10 each show an embodiment for producing the guide device 10.
As shown in fig. 8, the guide 10 may be made from a cut sheet 23 having a central aperture 25. The sheet 23 may be folded in half along fold line 24 and then sewn on both sides to form a cylindrical body having a base at one end with a central aperture 25 for securing the guide 10 to the housing of the air-bag 5 and an opening at the other end.
As shown in fig. 9, the guide 10 may be made of two cut sheets 26, 27, wherein the sheet 26 may be sewn on both longitudinal edges thereof into a cylindrical body open at both ends, and then the sheet 27 is sewn to one of the ends of the sewn sheet 26 as a bottom having a central hole 25.
As shown in fig. 10, the guide 10 may be made of three cut sheets of material, two side sheets 28 and one central main sheet 29. The central main web 29 has a central opening 25, which likewise serves as a fastening means for the base of the finished tubular body to the housing of the airbag.
Fig. 11 shows a variant of fig. 10, in which pull tapes 31, 32 are provided on the inner side of the pockets of the guide 10, for example on the sides of the pockets opposite each other formed by the intermediate main sheet 29. These drawstrings may facilitate the deployment process of the guide 10 and the form stability after deployment.
An airbag according to a fourth embodiment of the present invention will be described with reference to fig. 12 to 14. Fig. 12 shows the airbag 2 of the airbag in a folded state and fig. 13 shows the airbag 2 of the airbag during inflation and deployment, wherein the cross section is defined by the central initiation point and the direction of ejection of the airbag. Fig. 14 shows a folded form of the airbag 2.
In this embodiment, the airbag 2 can be moved past the central control panel 1 during inflation and deployment by folding the airbag 2, so that collision of the airbag 2 with the central control panel 1 during inflation and deployment and the resulting safety risk can be avoided. The gas package 2 may comprise, in the folded state, a plurality of Z-folds (indicated by reference numeral 21 in fig. 14) at least in the neck portion 11. Advantageously, the gas bag 2 can comprise, in the folded state, a plurality of Z-folds in the neck portion 11 and at least in a section of the body portion 12 adjacent to the neck portion 11. For example, the gas pouch 2 may comprise only a Z-fold in the folded state, as shown in fig. 14. Alternatively, the gas bag 2 can also be folded in a section of the body 12 facing away from the neck 11 (as indicated by reference numeral 22 in fig. 14) in a wound manner.
By repeating the zigzag folding of the air bag 2 in a plurality of passes, a structure similar to an accordion can be formed. By this construction it is achieved that the force conditions of the folded airbag at the beginning after the ignition can be made to resemble a spring, so that the folded airbag can jump upwards rapidly during the inflation and deployment process, thus smoothly crossing over a protruding object, such as a suspended central control screen 1.
In some embodiments, which are not shown, the airbag according to the above-described embodiments can also be used as a passenger airbag in the case of a center screen 1. Such an airbag may be beneficial for the safety of an occupant of the vehicle when ejected when an object is inadvertently placed in the dashboard area in front of the copilot.
In some embodiments, which are not shown, the airbag according to the above-described embodiments may also be used as a driver airbag. In particular, the airbag according to any of the embodiments described above can be used for a driver airbag when the autonomous driving smart vehicle is not equipped with a steering wheel.
Figure 15 shows an exploded view of an airbag as a module. The aforementioned embodiments of the airbag may have the same or similar configurations. The airbag shown in fig. 15 may include a dust cover 33, a folding bag 34, a retainer ring 35, a housing 36, a gas generator 37, and fasteners 38. The folded bag 34 may be fixed in the housing 36 by the retaining ring 35, and the housing 36 may be fixed in the installation space in the instrument panel by the fastener 38. The folded package 34 may comprise a folded airbag 2 and a flexible guiding means 10 wrapping around the airbag 2 and also folded. The airbag 2 and the guide 10 can be constructed, for example, in the same or similar manner to the embodiments described above. The material of the guide means 10 may be the same as or similar to the material of the air bag 2, or other flexibly deformable materials may be used.
It is noted that the terminology used herein is for the purpose of describing particular aspects only and is not intended to be limiting of the disclosure. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be understood that the terms "comprises" and "comprising," and other similar terms, when used in this specification, specify the presence of stated operations, elements, and/or components, but do not preclude the presence or addition of one or more other operations, elements, components, and/or groups thereof. The term "and/or" as used herein includes all arbitrary combinations of one or more of the associated listed items. In the description of the drawings, like reference numerals refer to like elements throughout.
The thickness of elements in the figures may be exaggerated for clarity. It will be further understood that if an element is referred to as being "on," "coupled to" or "connected to" another element, it can be directly on, coupled or connected to the other element or intervening elements may be present. Conversely, if the expressions "directly on … …", "directly coupled with … …", and "directly connected with … …" are used herein, then there are no intervening elements present. Other words used to describe the relationship between elements, such as "between … …" and "directly between … …", "attached" and "directly attached", "adjacent" and "directly adjacent", etc., should be similarly interpreted.
Terms such as "top," "bottom," "above," "below," "over," "under," and the like, may be used herein to describe one element, layer or region's relationship to another element, layer or region as illustrated in the figures. It will be understood that these terms are intended to encompass other orientations of the device in addition to the orientation depicted in the figures.
It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. Thus, a first element could be termed a second element without departing from the teachings of the present inventive concept.
It is also contemplated that all of the exemplary embodiments disclosed herein may be combined with each other as desired.
Finally, it is pointed out that the above-described embodiments are only intended to be understood and do not limit the scope of protection of the invention. It will be apparent to those skilled in the art that modifications may be made in the foregoing embodiments without departing from the scope of the invention.

Claims (30)

1. An airbag comprising a housing, an inflator accommodated in the housing, and an airbag (2) fixedly mounted on the housing, characterized in that the airbag has a neck portion (11) from which the airbag can be inflated, and a main body portion (12), the airbag being configured,
in the inflated and deployed state of the airbag, an accommodation space (13) is formed between the neck portion and the main body portion, the accommodation space passing through the airbag in a horizontal direction transverse to the direction of ejection of the airbag; and is
Starting from the folded state of the gas bag, the main body part can at least cross an imaginary line extending in the horizontal direction in the receiving space at a predetermined height from above during inflation and deployment of the gas bag.
2. The airbag of claim 1, wherein a lowest apex of the accommodating space has a distance of not more than 50mm from an imaginary line.
3. The airbag of claim 2, wherein a lowest apex of the accommodating space has a distance of not more than 20mm from an imaginary line.
4. The airbag of claim 1, wherein, in the folded state of the airbag, the main body portion is capable of passing over at least a lowermost point of the accommodation space from above during inflation and deployment of the airbag.
5. The airbag of claim 4, wherein the airbag is configured such that, starting from its folded state, the main body part can be moved over the half of the receiving space below the neck part from above during inflation and deployment of the airbag.
6. The airbag according to any one of claims 1 to 5, characterized in that the neck portion has a circular or elliptical cross section or a curved-sided quadrangular cross section in the inflated and deployed state of the airbag.
7. An airbag according to any one of claims 1 to 5, characterised in that in an end region of the neck portion adjacent to the body portion, a flexible pulling element (6) is provided inside the neck portion, which pulling element is configured to constrain the cross-sectional shape of the neck portion in the inflated and deployed state of the airbag.
8. The airbag of claim 7, wherein the pulling element is a drawstring configured to be straightened in the inflated and deployed state of the airbag.
9. The airbag of claim 8, wherein in the inflated and deployed state of the airbag, the drawstring extends in a vertical plane in the neck and is centrally disposed in the neck in the horizontal direction.
10. An airbag according to any of claims 1 to 5 comprising a guide arrangement (10) configured to guide the airbag during inflation and deployment of the airbag.
11. An airbag according to claim 10, wherein the guide means is flexibly foldable, the folded airbag being accommodated in a folded guide means which is convertible from a folded state to an unfolded state in which the guide means forms a guide sleeve.
12. An air-bag according to claim 11 wherein the guide sleeve has a uniform extension with the neck in the inflated and deployed condition.
13. The airbag of claim 11 wherein said guide sleeve is tightened over said neck in the inflated and deployed condition of the bag.
14. An air-bag according to claim 11 wherein the guide means comprises at least one Z-fold.
15. The airbag of claim 11 wherein the guide is made from a sheet of material that is folded in half and sewn into a barrel on both sides after folding in half.
16. An air-bag according to claim 11 wherein the guide means is formed from two sheets, one of which is stitched at its longitudinal edges to form a tube open at both ends, the other of which is stitched to the tube at one end thereof to form the base of the tube.
17. The airbag according to claim 11, wherein the guide means is made of two side pieces each sewn to one side edge of an intermediate main piece to form a cylindrical body, and an intermediate main piece each forming one side portion of the cylindrical body and forming the other two opposite side portions and the bottom portion of the cylindrical body.
18. The airbag of claim 17, wherein drawstrings are provided respectively at inner sides of both side portions formed by the intermediate main panel.
19. An airbag according to any of claims 1 to 5, wherein the bag comprises a plurality of Z-folds in the folded state at least in the neck.
20. The airbag of claim 19, wherein the bag comprises a plurality of Z-folds in the folded state in the neck portion and at least in a section of the body portion adjacent the neck portion.
21. The airbag of claim 20, wherein the airbag in the folded state comprises only a Z-fold, or the airbag is folded in a section of the body portion facing away from the neck portion.
22. An air-bag according to any one of claims 1 to 5, wherein the ratio of the length of the neck portion to the equivalent radius is 2 or more.
23. The airbag of claim 22 wherein the ratio of the length of the neck to the equivalent radius is 3 or greater.
24. The airbag of claim 22 wherein the ratio of the length of the neck to the equivalent radius is greater than or equal to 4.
25. An airbag according to any of claims 1 to 5, wherein the airbag is a passenger airbag.
26. A combined system for a vehicle, the combined system comprising a vehicle component, characterised in that the combined system comprises an airbag according to any of claims 1 to 25 arranged in a vehicle component.
27. A combined system for a vehicle according to claim 26, characterised in that there is an object on the vehicle part in front of the gas bag in the direction of ejection of the gas bag, said object being located in the receiving space formed by the gas bag in the inflated and deployed state of the gas bag, and that starting from the folded state of the gas bag, the main body part of the gas bag passes over said object during inflation and deployment of the gas bag from above.
28. A combination for a vehicle according to claim 27, wherein the airbag is a passenger airbag, the vehicle component is an instrument panel (4), and the object is a display screen provided on the instrument panel and projecting upwardly from the instrument panel.
29. Combination system for a vehicle according to claim 28, characterized in that the display screen is a floating central control screen (1).
30. A combination for a vehicle according to claim 28, wherein the airbag comprises a pull strap for restraining the cross-sectional shape of the neck of the airbag in the inflated and deployed state of the airbag, the pull strap being perpendicular to the windscreen and/or coplanar with the central screen in the inflated and deployed state of the airbag.
CN202022066854.3U 2020-09-18 2020-09-18 Airbag and combination system for a vehicle Active CN212500257U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114194137A (en) * 2020-09-18 2022-03-18 延锋汽车智能安全系统有限责任公司 Airbag and combination system for a vehicle
CN115158214A (en) * 2022-06-23 2022-10-11 浙江零跑科技股份有限公司 Safety air curtain protective bracket

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114194137A (en) * 2020-09-18 2022-03-18 延锋汽车智能安全系统有限责任公司 Airbag and combination system for a vehicle
CN115158214A (en) * 2022-06-23 2022-10-11 浙江零跑科技股份有限公司 Safety air curtain protective bracket
CN115158214B (en) * 2022-06-23 2024-03-22 浙江零跑科技股份有限公司 Safety air curtain protection support

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