The present invention relates to an airbag apparatus mounted on a vehicle, and more particularly to an occupant knee protection apparatus for a vehicle which includes a knee airbag disposed in front of a knee portion of an occupant and configured to expand and deploy toward the knee portion of the occupant upon collision of the vehicle (front collision) to thereby protect the knee portion of the occupant.
An occupant knee protection apparatus for a vehicle of such a type is disclosed in, for example, Japanese Patent Application Laid-Open (kokai) No. H9-123863. The patent publication discloses a leg protection apparatus in which a knee airbag module is connected to a reinforcement member within a vehicle by means of a bracket having a weakened portion that absorbs impact force through deformation.
In the leg protection apparatus of the above-mentioned patent publication, upon collision of the vehicle, the knee airbag expands and deploys toward a knee portion of an occupant to thereby receive an impact load of the knee portion of the occupant. Further, the bracket can receive a portion of the load which the knee airbag has failed to receive. However, the leg protection apparatus cannot sufficiently cope with variations in knee position or load stemming from variation in physique among possible occupants, and fails to optimally absorb energy.
The present invention provides an occupant knee protection apparatus for a vehicle which includes a knee airbag disposed in front of a knee portion of an occupant and configured to expand and deploy toward the knee portion of the occupant upon collision of the vehicle to thereby protect the knee portion of the occupant, the apparatus being characterized in that the knee airbag is attached to a panel capable of absorbing energy, the panel is connected to a support member of the vehicle via a bracket capable of absorbing energy, the panel is disposed in front of the knee portion of the occupant at a vertical position where the knee portion of the occupant can come into contact with the panel when the occupant has a small build as compared with a standard build, the bracket is disposed in front of the knee portion of the occupant at a vertical position where the knee portion of the occupant can come into contact with the bracket when the occupant has the standard build or a large build as compared with the standard build, and the bracket has an energy absorption load greater than that of the panel.
By virtue of the above-described configuration, upon collision of the vehicle, the knee airbag expands and deploys toward a knee portion of an occupant to thereby receive an impact load of the knee portion of the occupant. Further, a portion of the load which the knee airbag has failed to receive is received by the panel disposed in front of the knee portion of the occupant when the occupant has a small build as compared with the standard build, and is received by the bracket disposed in front of the knee portion of the occupant when the occupant has the standard build or a large build as compared with the standard build. Accordingly, the occupant knee protection apparatus can sufficiently cope with variations in knee positions or load stemming from variation in physique among possible occupants, and can optimally absorb energy.
Further, in this case, the energy absorption load of the bracket is set greater than that of the panel. Therefore, when the occupant has a small build as compared with the standard build (i.e., the occupant has a small mass and low body resistance to shock), energy absorption can be effected by means of the panel which deforms with small load, and when the occupant has the standard build, or a large build as compared with the standard build (i.e., the occupant has a large mass and high body resistance to shock), energy absorption can be effected by means of the bracket which deforms with high load. Therefore, the occupant knee protection apparatus can effectively protect the occupant within a limited space within the vehicle.
For practicing of the present invention, the knee airbag is preferably attached to the panel via an airbag case. The knee airbag and the airbag case can be commonly used among vehicles which have different body shapes and in which the shapes of the panel and the bracket may be changed in accordance with the position of an occupant or a design.
For practicing of the present invention, the airbag case is preferably attached to an opening portion of the panel, and an upper wall portion of the airbag case is superposed on a lower surface of an upper portion of an opening edge of the panel. This configuration is effected in the case where the apparatus is applied for the driver's seat. That is, even when the steering column, which moves forward upon collision of the vehicle, comes into contact with the panel or the airbag case, the steering column is unlikely to be caught by the upper wall portion of the airbag case, whereby smooth movement of the steering column is enabled.
An embodiment of the present invention will now be described with the drawings. An occupant knee protection apparatus for a vehicle shown in
The knee airbag 11 is formed of woven fabric, and is accommodated within the airbag case 13 in a folded condition. Upon collision of the vehicle, as shown in
The panel 21 is formed from a thin plate into a predetermined shape, and can absorb energy when it undergoes plastic deformation upon receipt of an energy absorption load F1. As shown in
The brackets 22 are formed from a thick plate into a predetermined shape, and can absorb energy when undergoing plastic deformation upon receipt of an energy absorption load F2 (a load greater than the energy absorption load F1 of the panel 21). As shown in
In the occupant knee protection apparatus of the present embodiment having the above-described configuration, in an ordinary state, the knee airbag 11 is accommodated within the airbag case 13 in a folded condition, and is covered by a rupturable lower portion of the instrument panel 24. In the present embodiment, when, upon a collision of the vehicle, a corresponding sensor (not shown) detects an acceleration greater than a preset value, the inflator 12 supplies gas into the knee airbag 11 in a folded condition. As the knee airbag 11 expands and deploys by the action of the supplied gas, as shown in
In the present embodiment, upon collision of the vehicle, the knee airbag 11 expands and deploys toward the knee portion B of the occupant A to thereby receive an impact load of the knee portion B of the occupant A. Further, when the occupant has a small build as compared with the standard build, a portion of the load which the knee airbag 11 has failed to receive is received by the panel 21 disposed in front of the knee portion B1 of the occupant, and then by the brackets 22. When the occupant has the standard build, or a larger build as compared with the standard build, the portion of the load which the knee airbag 11 has failed to receive is received by the brackets 22 disposed in front of the knee portion B2 of the occupant. Accordingly, the occupant knee protection apparatus can sufficiently cope with variations in knee positions B1, B2 or load stemming from variation in physique among possible occupants, and can optimally absorb energy. A reaction generated when the knee airbag 11 receives the impact load of the knee portion B of the occupant A is received by the instrument-panel reinforcement 23 via the panel 21 and the brackets 22.
In the present embodiment, the energy absorption load F2 of the brackets 22 is rendered greater than the energy absorption load F1 of the panel 21. Therefore, when the occupant has a small build as compared with the standard build (i.e., the occupant has a small mass and low body resistance to shock), energy absorption can be effected by means of the panel 21 which deforms with the small load F1, and when the occupant has the standard build or a large build as compared with the standard build (i.e., the occupant has a large mass and high body resistance to shock), energy absorption can be effected by means of the brackets 22 which deform with the high load F2. Therefore, the occupant knee protection apparatus can effectively protect the occupant within a limited space within the vehicle.
In the present embodiment, the knee airbag 11 is attached to the panel 21 via the airbag case 13. Therefore, the knee airbag 11 and the airbag case 13 can be commonly used among vehicles which have different body shapes and in which the shapes of the panel 21 and the brackets 22 may be changed in accordance with the position of an occupant or a design. Thus, the knee airbag module 10 can be commonly used among various vehicles.
In the present embodiment, the airbag case 13 is attached to the opening portion 21a of the panel 21, and, as shown in
In the above-described embodiment, the airbag case 13 and the panel 21 are formed of separate members. However, the airbag case 13 may be formed integrally with the panel 21. In the above-described embodiment, the present invention is applied to the case where the inflator 12 is disposed within the knee airbag 11. However, the present invention can be applied to the case where an inflator is disposed outside a knee airbag, in the same manner as in the above-described embodiment, or with an appropriate modification.
Number | Date | Country | Kind |
---|---|---|---|
2002-056363 | Mar 2002 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP03/01747 | 2/19/2003 | WO | 00 | 8/27/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/074332 | 9/12/2003 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4978136 | Tomita et al. | Dec 1990 | A |
6131950 | Schröter | Oct 2000 | A |
Number | Date | Country |
---|---|---|
39 08 713 | Oct 1989 | DE |
199 50 944 | Apr 2001 | DE |
0 858 933 | Aug 1998 | EP |
A 02-014945 | Jan 1990 | JP |
U 02-056053 | Apr 1990 | JP |
A 06-032195 | Feb 1994 | JP |
A 07-032962 | Feb 1995 | JP |
A 09-123857 | May 1997 | JP |
A 09-123863 | May 1997 | JP |
A 10-230812 | Sep 1998 | JP |
A 11-059302 | Mar 1999 | JP |
A 11-180238 | Jul 1999 | JP |
A 2003-040072 | Feb 2003 | JP |
WO 0005105 | Feb 2000 | WO |
Number | Date | Country | |
---|---|---|---|
20050107729 A1 | May 2005 | US |