Opening structure for a roof airbag

Abstract

An opening structure for a roof airbag includes: a roof lining having an opening; the roof airbag disposed at an interior side of the roof lining; a roof airbag door disposed at the opening in the roof lining at a position where the roof airbag is deployed; and a fixation unit positioned between the roof airbag door and the roof lining. The roof airbag door has an outer lining inserted into and overlapping the roof lining.

Claims

1. An opening structure for a roof airbag, the opening structure comprising: a roof lining including an opening; the roof airbag disposed at an interior side of the roof lining; a roof airbag door disposed at the opening in the roof lining at a position where the roof airbag is configured to be deployed; and a fixation unit positioned between the roof airbag door and the roof lining, wherein the roof airbag door has an outer lining inserted into and overlapping the roof lining, and wherein the roof airbag door is fully detached from the roof lining and falls into an interior of a vehicle in response to deployment of the roof airbag.

2. The opening structure of claim 1, wherein the fixation unit comprises a fixation portion positioned on one surface of the roof lining and configured to press against the roof airbag door that is inserted to overlap the roof lining.

3. The opening structure of claim 2, wherein the fixation portion comprises at least one toothed structure provided at a position where the fixation portion faces the roof airbag door.

4. The opening structure of claim 2, wherein one end of the fixation portion disposed away from the roof airbag door is hot-melt coupled to the one surface of the roof lining.

5. The opening structure of claim 1, wherein the fixation unit comprises: a bracket disposed at one surface of the roof lining; and at least one hook portion protruding from an external side of the bracket, and wherein the bracket is inserted into a locking hole formed in the roof airbag door, and wherein the hook portion is positioned at one surface of the roof airbag door adjacent to the locking hole.

6. The opening structure of claim 5, further comprising: a fixation hole formed in the bracket; and a hook-fixation portion inserted into the fixation hole and fastened to a roof panel.

7. The opening structure of claim 5, wherein one end of the bracket disposed away from the roof airbag door is hot-melt coupled to one surface of the roof lining.

8. The opening structure of claim 1, further comprising a slit portion formed in the roof airbag door adjacent to a locking hole.

9. The opening structure of claim 1, further comprising a groove formed in the roof airbag door in at least one direction.

10. The opening structure of claim 1, wherein the roof airbag door is configured to be detached from the fixation unit when the roof airbag is deployed.

11. The opening structure of claim 10, wherein a locking hole in the roof airbag door is detached from a bracket when the roof airbag is deployed.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The above and other features of the present disclosure are described in detail with reference to certain embodiments thereof illustrated in the accompanying drawings which are given hereinbelow by way of illustration only, and thus are not limitative of the present disclosure, and wherein:

(2) FIG. 1 illustrates a side view of a vehicle including a roof airbag opening structure as an embodiment of the present disclosure;

(3) FIG. 2 illustrates a side view of a roof including a roof airbag opening structure as an embodiment of the present disclosure;

(4) FIG. 3 illustrates a roof including a roof airbag opening structure as an embodiment of the present disclosure;

(5) FIG. 4A illustrates a fastening relationship of a fixation unit of a roof airbag opening structure as an embodiment of the present disclosure;

(6) FIG. 4B illustrates a fixation portion of a fixation unit of a roof airbag opening structure as an embodiment of the present disclosure;

(7) FIG. 5A illustrates a fastening relationship of a fixation unit of a roof airbag opening structure as another embodiment of the present disclosure;

(8) FIG. 5B illustrates a fastening relationship of a fixation unit of a roof airbag opening structure as another embodiment of the present disclosure; and

(9) FIG. 5C is a side cross-sectional view of a fastening relationship of a roof airbag opening structure as another embodiment of the present disclosure;

(10) FIG. 6 illustrates a coupling process among a roof lining, a roof airbag door of a roof airbag opening structure, and a fixation portion of a roof airbag opening structure, as an embodiment of the present disclosure.

(11) It should be understood that the appended drawings are not necessarily drawn to scale, presenting a somewhat simplified representation of various features illustrative of the basic principles of the present disclosure. The specific design features of the present disclosure, including, for example, specific dimensions, orientations, locations, and shapes, will be determined in part by the particular intended application and usage environment.

(12) In the figures, the reference numbers refer to the same or equivalent parts of the present disclosure throughout the several figures of the drawing.

DETAILED DESCRIPTION

(13) Hereinafter, the embodiments of the present disclosure are described in detail with reference to the accompanying drawings. The embodiments of the present disclosure may be modified into various forms, and the scope of the present disclosure should not be construed as being limited to the following embodiments. The embodiments are provided to completely explain the present disclosure to those having ordinary skill in the art.

(14) In addition, terms such as . . . portion, . . . unit, and the like, used in this specification, each refer to a unit that processes at least one function or operation, and may be implemented as hardware, software or a combination thereof.

(15) The terminology used herein is for the purpose of describing the embodiments only, and is not intended to be limiting. A singular representation may include a plural representation unless it represents a definitely different meaning from the context.

(16) An embodiment is described in detail with reference to the accompanying drawings, and in the description given with reference to the accompanying drawings, the same or corresponding components are assigned the same reference numerals, and a description thereof is not repeated.

(17) When a controller, component, device, element, part, unit, module, or the like of the present disclosure is described as having a purpose or performing an operation, function, or the like, the controller, component, device, element, part, unit, or module should be considered herein as being configured to meet that purpose or perform that operation or function. Each controller, component, device, element, part, unit, module, and the like may separately embody or be included with a processor and a memory, such as a non-transitory computer-readable media, as part of the apparatus.

(18) The present disclosure relates to an opening structure 1 for a roof airbag 20. More specifically, it relates to a fastening structure of a roof airbag door 100 which is configured to be detached from a roof lining 10 when the roof airbag 20, disposed inside the roof lining 10, is deployed.

(19) FIGS. 1-3 illustrate, as one embodiment of the present disclosure, the deployment of the roof airbag 20 of a vehicle, including two rows of seats facing each other. Additionally, the detachment structure of the roof airbag door 100 when the roof airbag 20 is deployed is also depicted.

(20) As illustrated in the drawings, the roof airbag 20 is fixed to a roof panel 30. The roof panel 30 includes the roof lining 10, surrounding the lower end of the roof airbag 20. The roof lining 10 includes an opening 11 formed in a direction in which the roof airbag 20 is deployed. Furthermore, the roof airbag door 100 is disposed at the opening 11 in the roof lining 10 by facing the roof airbag 20.

(21) The roof airbag 20 may be controlled to deploy when a controller in the vehicle receives an impact via a collision detection sensor. The controller is an electric control unit (ECU) at an ECU level, which may be a device configured to comprehensively control multiple electronic devices used in the vehicle.

(22) For example, the controller may control both processors at a processor level and controllers at a controller level. The controller may receive sensed data from the processors, generate control commands to control the controllers depending on situations, and transmit the control commands to the controllers. With this process, the controller may deploy the roof airbag 20 in response to the impact received from at least one collision detection sensor disposed in the vehicle.

(23) The roof airbag 20 may be fixed to a roof frame and is configured to deploy in response to a command from the controller. Because the roof airbag 20 is configured to deploy towards an area between the seats facing each other in the interior space in the vehicle, when the roof airbag 20 is deployed, the roof airbag door 100 positioned in the roof lining 10 is detached from the roof lining 10. Thus, the roof airbag 20 is deployed into the space between the seats facing each other in the vehicle.

(24) With this configuration, the opening structure 1 includes the opening 11 formed in the roof lining 10 in the direction in which the roof airbag 20 is deployed, and at least one fixation unit 200 configured to fasten the roof airbag door 100 positioned in the opening 11 to one interior surface of the roof lining 10.

(25) In the drawings, 6 fixation units 200 are depicted, however, for simplicity, reference is made to one fixation unit 200.

(26) The fixation unit 200 is hot-melt 300 coupled to an upper surface of the roof lining 10, and is configured to fasten the roof lining 10 and the roof airbag door 100 to each other. The hot-melt 300 may be an adhesive used to create a strong bond. Furthermore, the fixation unit 200 has a shape that allows the roof airbag door 100 to be detached from the roof lining 10 when the roof airbag 20 is deployed.

(27) In one embodiment of the present disclosure, the fixation unit 200 may be configured to integrally press an area where the roof lining 10 and the roof airbag door 100 overlap each other. In a different embodiment of the present disclosure, the roof airbag door 100 may be hooked and fixed to the fixation unit 200 which is fixed to the roof lining 10.

(28) Because the roof airbag door 100 is positioned in the roof lining 10 by being inserted thereinto, the roof airbag door 100 positioned in the opening 11 in the roof lining 10 may have a protruding shape but flush with the roof lining 10. Moreover, the roof airbag door 100 inserted into the roof lining 10 may have a shape curved in a height direction to have a predetermined distance from a portion surrounding the opening 11 in the roof lining 10. Therefore, when the roof airbag 20 is deployed, the roof airbag door 100, which is fastened to the fixation unit 200 with respect to the area having the curved shape, folds. Accordingly, when the roof airbag 20 is deployed, the roof airbag door 100 is detached from the roof lining 10.

(29) A rear surface of the roof airbag door 100 is positioned to face the interior space. The rear surface of the roof airbag door 100 may have a groove 120 formed in at least one direction. The groove 120 has an engraved shape in the roof airbag door 100 facing the roof airbag 20. The groove 120 facilitates vertical detachment of the roof airbag door 100 and guides the folding direction of the roof airbag door 100 when the roof airbag door 100 is detached. More particularly, in one embodiment of the present disclosure, two grooves 120 may be formed and be perpendicular to each other. In other words, the grooves 120 in the roof airbag door 100 are configured to induce a vertical descent of the roof airbag door 100 in response to the deployment of the roof airbag 20.

(30) FIGS. 4A and 4B illustrate the structure of the fixation unit 200 constituting the Y area in FIG. 2 as an embodiment of the present disclosure.

(31) As illustrated in the drawings, the fixation unit 200 includes a fixation portion 210 fixed to the roof lining 10. The fixation portion 210 is configured to press the area where the roof lining 10 and the roof airbag door 100 overlap each other. More particularly, one end of the fixation portion 210 disposed away from the roof airbag door 100 is hot-melt 300 coupled to the roof lining 10, and another end of the fixation portion 210 includes a toothed structure 211 so as to integrally press the roof airbag door 100 against the roof lining 10.

(32) As illustrated in FIG. 4B, because the toothed structure 211 in the fixation portion 210 is configured to press at least a portion of the roof airbag door 100 against the roof lining 10 simultaneously, at least a portion of the toothed structure 211 in the fixation portion 210 may be inserted into the upper surface of the roof airbag door 100.

(33) In one embodiment of the present disclosure, in a case where the fixation portion 210 including the toothed structure 211 is employed as the fixation unit 200, when the roof airbag 20 is deployed, a tension same as or greater than the tension of the fixation portion 210 pressed when the roof airbag 20 is deployed is applied to the roof airbag door 100 and the roof airbag door 100 is detached from the fixation portion 210.

(34) The fixation portion 210 includes a fixation hole 223, and a hook (e.g., hook-fixation portion) 224 fastened to the roof panel 30 may be positioned in the fixation hole 223. Accordingly, the fixation portion 210 hot-melt 300 coupled to the roof lining 10 is fixed to the roof panel 30 using the hook.

(35) FIGS. 5A-5C illustrate a fixation unit 200 which constitutes a bracket 220, as a different embodiment of the present disclosure.

(36) The different embodiment of the present disclosure is described in an enlarged view of the Z area in FIG. 2, wherein the bracket 220 is fixed to the roof lining 10. Because one end of the bracket 220 disposed away from the roof airbag door 100 is hot-melt 300 coupled to the roof lining 10, the bracket 220 may be integrated with the roof lining 10 in an assembly process.

(37) In other words, in the process, the bracket 220 is placed before placing the roof lining 10, and a hook-fixation portion 224 to be inserted into the fixation hole 223 in the bracket 220, is fixed to the roof panel 30. Therefore, the bracket 220 is fixed and positioned between the roof panel 30 and the roof lining 10 using the hook-fixation portion 224.

(38) Because the bracket 220 is positioned to protrude from the upper surface of the roof lining 10, the bracket 220 is inserted into a locking hole 222 in the roof airbag door 100. Moreover, an external surface of the bracket 220 inserted into the locking hole 222 includes a hook portion 221 whose lower end has an elastic force. Therefore, in a state in which the locking hole 222 in the roof airbag door 100 fits the bracket 220, at least one hook portion 221 on the bracket 220 is configured to press the upper surface of the roof airbag door 100 adjacent to the locking hole 222.

(39) Furthermore, provided is a slit portion 110 formed at an end of the roof airbag door 100 by extending from the locking hole 222 which fits the bracket 220. In fastening the roof airbag door 100 to the upper surface of the roof lining 10 on which the bracket 220 is positioned, the slit portion 110 allows the locking hole 222 in the roof airbag door 100 to easily fit the bracket 220.

(40) As illustrated in FIG. 5C, two hook portions 221 are used. At least one hook portion 221 positioned on a side surface of the bracket 220 on the upper surface of the roof lining 10 is coupled to the upper surface of the roof airbag door 100.

(41) As such, before the roof airbag 20 is deployed, the roof airbag door 100 is fixed on the upper surface of the roof lining 10 using the fixation unit 200. When the roof airbag 20 is deployed, the roof airbag door 100 is detached from the bracket 220 and falls into the interior of the vehicle in the direction in which the roof airbag 20 is deployed.

(42) FIG. 6 illustrates a coupling process among the roof lining 10, the roof airbag door 100, and the fixation portion 210, as an embodiment of the present disclosure.

(43) In one embodiment of the present disclosure, the fixation unit 200 includes the fixation portion 210, and the fixation portion 210 is positioned to integrally press the roof lining 10 against the roof airbag door 100.

(44) In fixing the roof lining 10, the roof airbag door 100 is fixed in place on the upper surface of the roof lining 10 using a jig (not illustrated). Thereafter, when placing the fixation portion 210 of the fixation unit 200, one end of the fixation portion 210 disposed away from the opening 11 is hot-melt 300 coupled to the upper surface of the roof lining 10. With this configuration, the fixation portion 210 may integrally press the roof lining 10 against the roof airbag door 100.

(45) The roof airbag 20 is coupled to the roof panel 30 or to the roof frame, and the roof lining 10 is integrally coupled to the roof panel 30, completing the process of assembling the interior finish of the vehicle.

(46) Asit should be apparent from the above description, the present disclosure may obtain the following effects by the configuration, combination, and operation relationship described above with the present embodiment.

(47) The present disclosure provides an opening structure 1 for a roof airbag in which a roof airbag door is detached from a roof lining when the roof airbag is deployed, ensuring the safety of passengers.

(48) Moreover, the present disclosure provides a fixation unit disposed on an interior surface of the roof lining, maintaining aesthetics even when the roof airbag door is coupled.

(49) Furthermore, according to the present disclosure, the fixation unit may strengthen component performance and assembly between the roof lining and the roof airbag door.

(50) The detailed description is merely illustrative of the present disclosure. In addition, the above description shows and describes the embodiments of the present disclosure, but the present disclosure can be used in various other combinations, modifications, and environments. In other words, changes or modifications are possible within the scope of the inventive concept of the present disclosure disclosed herein, the scope of equivalents to the described disclosure, and/or the scope of skill or knowledge in the art. The embodiments describe the best state for implementing the technical idea of the present disclosure, and various changes required for specific application fields and uses of the present disclosure are possible. Therefore, the detailed description of the present disclosure is not intended to limit the present disclosure to the disclosed embodiments. Also, the appended claims should be construed to include other embodiments.