This application claims the benefit of priority to Japanese Patent Application No. 2020-038153 filed on 5 Mar. 2020, the disclosures of all of which are hereby incorporated by reference in their entireties.
The present invention relates to an airbag arrangement structure of a vehicle.
Japanese Patent Application Publication No. H07-156749 (hereinafter, referred to as Patent Document 1) discloses a device having a lid provided on a hood of a vehicle and deploying an airbag from the lid onto a periphery of the hood. In addition, Japanese Patent Application Publication No. 2005-212541 (hereinafter, referred to as Patent Document 2) discloses a device having an airbag provided at a cowl of a vehicle body and utilizing a deploying force of the airbag to lift a rear end of a bonnet hood, which is the farthest portion from a bonnet lock as a rotation axis.
The device of Patent Document 1 needs to have the lid provided on the hood, and it takes time to deploy the airbag along the periphery of the hood after the airbag has bulged out of the vehicle. In addition, the device of Patent Document 2 can lift only the rear end of the bonnet hood (the farthest portion from the bonnet lock). If the airbag of the device were used to lift the middle or a front end in a front-rear direction of the bonnet hood, the airbag might have interference from devices in an engine room to fail to be suitably inflated.
The present invention has been made in view of the above-identified problems and is intended to provide an airbag arrangement structure to prevent interference from devices in an engine room.
An airbag arrangement structure of the present invention, as a solution to the above-identified problem, includes: a hood configured to open or close an opening above an engine room provided in front of a vehicle interior; a cover provided under the hood so as to face the hood; and an airbag provided between the hood and the cover.
The present invention uses the cover to prevent the deploying airbag from having interference from devices in the engine room.
Next, an embodiment of the present invention is described in detail with reference to drawings as required. Note that a term “front-rear” indicates a vehicle front-rear direction, a term “right-left” indicates a right-left direction (vehicle width direction) as viewed from a driver seat, and a term “up-down” indicates an up-down direction when the vehicle stands still on a horizontal plane.
As shown in
The hood 10 is a plate member made of metal or resin to cover an opening above the engine room when the hood 10 is closed.
The hinge 20 is a member made of metal or resin to support a rear end of the hood 10 so as to be rotatable about a lateral axis. The pair of right and left hinges 20 is bilaterally symmetrical and thus the hinge 20 on the right side is described below. As shown in
The lower hinge 21 integrally includes a base 21a to be attached to the vehicle body and a vertical wall 21b extending upward from the base 21a.
The upper hinge 22 integrally includes a side wall 22a extending in the front-rear direction and an upper wall 22b extending inward in the vehicle width direction from an upper end of the side wall 22a. A rear end of the side wall 22a is rotatably supported with respect to an upper end of the vertical wall 21b of the lower hinge 21. A front end of the upper wall 22b is fixed to an under surface of the hood 10.
The vertical wall 21b of the lower hinge 21 has a deformity 23. The deformity 23 integrally includes a bottom wall 23a extending outward in the vehicle width direction from an upper end of a lower portion of the vertical wall 21b, and a top wall 23b folded upward from an outer end in the vehicle width direction of the bottom wall 23a to extend inward in the vehicle width direction. An inner end in the vehicle width direction of the top wall 23b continues to a lower end of an upper portion of the vertical wall 21b. The deformity 23 is not deformed by normal open/close of the hood 10 as well as a load inputted at a front collision of the vehicle C, but is deformed by a deploying force (inflating force) of the airbag 50 so as to be stretched in the up-down direction.
As shown in
As shown in
The airbag 50 is disposed between the hood 10 and the cover 40. A front end 50a of the retracted airbag 50 is folded so as to be pushed into the airbag 50. In addition, a pair of right and left horn portions 50b at a rear end of the retracted airbag 50 is folded so as to be pushed into the airbag 50. A front end of the horn portion 50b may be further folded or wound. A top surface or under surface of the airbag 50 may be fixed to the under surface of the hood 10 or a top surface of the cover 40, such as by hooking an engaged part of the airbag 50 in an annular shape onto a projection from a member to which the airbag 50 is attached.
The inflator 60 fills air into the airbag 50 to deploy the airbag 50. The inflator 60 is provided on the hood 10 near a rear end inside the airbag 50, that is, near an axis of rotation of the hood 10 on the hinges 20.
When the airbag 50 is retracted, the hood 10 and the cover 40 have a larger area, in planar view, than the airbag 50. In other words, the retracted airbag 50 has a smaller area, in planar view, than the hood 10 and cover 40, so that the hood 10 and the cover 40 each have a part of periphery thereof not overlapping or underlapping with the airbag 50 in planar view. The cover 40 is fixed to the hood 10 at such a part of the periphery.
When the inflator 60 is activated, the airbag 50 is deployed and the cover 40 is separated from the hood 10 by a deployment force of the airbag 50. The cover 40 separated from the hood 10 is placed over the various devices in the engine room 3. The airbag 50 is deployed (inflated) upward in a state of contacting the top surface of the cover 40. The deformity 23 of the hinge 20 is deformed by the deployment force of the airbag 50 so as to be stretched in the up-down direction (from a state in
The airbag arrangement structure 1 according to the embodiment of the present invention includes: the hood 10 configured to open or close the opening above the engine room 3 provided in front of a vehicle interior 2; the cover 40 provided under the hood 10 so as to face the hood 10; and the airbag 50 provided between the hood 10 and the cover 40, Accordingly, the airbag arrangement structure 1 uses the cover 40 to prevent the deploying airbag 50 from having interference from devices in the engine room 3. In addition, the airbag arrangement structure 1 uses the cover 40 to implement the functions of suppressing noises from the various devices (such as engine) in the engine room 3 to the outside of the vehicle, and preventing heat damage to the airbag 50.
Further, the airbag arrangement structure 1 includes the hinge 20 to support the hood 10 so as to be opened or closed with respect to the vehicle body, wherein the hinge 20 has the deformity 23 deformable in the up-down direction by the deployment force of the airbag 50, and the deployed airbag 50 supports the hood 10. Accordingly, the airbag arrangement structure 1 suitably lifts and supports a portion of the hood 10, working as the axis of rotation at normal open/close of the hood 10, by the deployment force of the airbag 50, and even when something collides against a portion of the hood 10 near the hinge 20, the hinge 20 is deformed so as to be contracted, to provide capability of protecting something colliding against the hood 10 more evenly all over the hood 10.
Still further, the cover 40 of the airbag arrangement structure 1 has a larger area, in planar view, than the retracted airbag 50. Accordingly, the airbag arrangement structure 1 is allowed for suitably securing a margin for fixing the cover 40 to the hood 10.
Still further, the deployed airbag 50 of the airbag arrangement structure 1 extends from the front end to rear end of the hood 10. Accordingly, the airbag arrangement structure 1 lifts the hood 10 end to end in the front-rear direction, to provide capability of protecting something colliding against the hood 10 evenly in the front-rear direction.
Still further, the airbag arrangement structure 1 includes the hinge 20 to support the hood 10 so as to be opened or closed with respect to the vehicle body, and the inflator 60 to deploy the airbag 50 is provided on the hood 10 near the axis of rotation of the hood 10 by the hinges 20. Accordingly, the airbag arrangement structure 1 allows for reducing an impact on the inflator 60 at normal open/close of the hood 10.
Hereinabove, the embodiment of the present invention has been described, but the present invention is not limited thereto and can be modified as required within the scope of the present invention. For example, the front end 50a of the deployed airbag 50 may cover the front end of the vehicle C from ahead. In addition, the deformity 23 of the hinge 20 may have the folded portion, between the bottom wall 23a and top wall 23b, positioned inside in the vehicle width direction with respect to the vertical wall 21b. Further, the hood 10 may be lifted not by the deploying force of the airbag 50 but a separate actuator (not shown), or a combination of the deploying force of the airbag 50 and such an actuator.
Number | Date | Country | Kind |
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2020-038153 | Mar 2020 | JP | national |