WO2005061284A1

WO2005061284A1 - Vehicular bumper structure

Info

Publication number: WO2005061284A1
Application number: PCT/JP2004/019281
Authority: WO
Inventors: Hiroyuki Takahashi; Motomi Iyoda; Ryotaro Kachu; Yujiro Miyata
Original assignee: Toyota Jidosha Kabushiki Kaisha
Priority date: 2003-12-24
Filing date: 2004-12-16
Publication date: 2005-07-07
Also published as: KR100792722B1; EP1697178B1; AU2004305375B2; CN2790849Y; JP2005186677A; JP4052244B2; US7686358B2; KR20060108729A; AU2004305375A1; US20070114803A1; EP1697178A1; CN1321024C; CN1636803A

Abstract

A vehicular bumper structure includes plural load detection sensors (28, 30, 32, 34, 52) disposed at predetermined intervals in a vehicle body vertical direction between a load transmitting plate (36, 50) disposed with a bumper touch sensor and a front wall portion (20C) of a bumper reinforcement. The load transmitting plate (36, 50) is configured so as to be displaced towards a vehicle body rear side with respect to the front wall portion (20C) of the bumper reinforcement (20) .

Description

DESCRIPTION VEHICULAR BUMPER STRUCTURE

BACKGROUND OF THE INVENTION Field of the Invention

[0001] The present invention relates to a vehicular bumper structure. In particular, the present invention relates to a vehicular bumper structure that can detect a collision body in a vehicle such as an automobile. Description ofthe Related Art

[0002] Conventionally, with respect to a vehicular bumper structure that detects a collision body in a vehicle such as an automobile, the following configuration has been known. This is a configuration where a groove that extends in a longitudinal direction is formed in the front surface of a bumper reinforcement, a collision detection sensor is housed inside this groove, a pair of upper and lower grooves are formed in the rear surface of an impact absorber, and a push-in portion with respect to the collision detection sensor is formed. [0003] In this configuration, the entire areas of the upper portion and the lower portion of the pair of upper and lower grooves in the rear surface ofthe impact absorber abut against a front wall portion of the bumper reinforcement. Part of a load acting on the impact absorber

is directly transmitted from the impact absorber to the bumper reinforcement via these abutment portions. For this reason, the load acting on the collision detection sensor is

reduced.

SUMMARY OF THE INVENTION

[0004] In consideration of the above fact, there is room to raise the collision detection

performance ofthe bumper. A vehicular bumper structure that can improve the collision detection performance is desired.

[0005] A vehicular bumper structure of the present invention includes : a bumper

reinforcement that extends along a vehicle width direction; plural load detection sensors disposed at a vehicle body outer side surface of the bumper reinforcement; and a load

transmitting plate disposed at vehicle body outer side surfaces of the plural load detection

sensors.

[0006] When a collision body collides with the bumper, a load from the outside is transmitted, via the load transmitting plate disposed at the vehicle body outer side surfaces of the plural load detection sensors, to the plural load detection sensors disposed at the vehicle body outer side surface of the bumper reinforcement. The total collision load can be measured on the basis of each ofthe loads detected by the plural load detection sensors. Thus, it becomes possible to discriminate the collision body on the basis of the total value of the collision loads, and collision detection performance can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS [0007] FIG. 1 is a side cross-sectional view showing a vehicular bumper structure pertaining to a first embodiment of the invention;

[0008] FIG. 2 is a side cross-sectional view showing a deformation state when a collision

body contacts an upper side of a bumper in the vehicular bumper structure pertaining to the first embodiment of the invention;

[0009] FIG. 3 is a side view showing a deformation state when a collision body contacts the

upper side of the bumper in a vehicle body to which the vehicular bumper structure

pertaining to the first embodiment of the invention has been applied;

[0010] FIG. 4 is a side cross-sectional view showing a deformation state when a collision body contacts a lower side ofthe bumper in the vehicular bumper structure pertaining to the first embodiment of the invention;

[0011] FIG.5 is a side view showing a deformation state when a collision body contacts the lower side of the bumper in the vehicle body to which the vehicular bumper structure pertaining to the first embodiment of the invention has been applied;

[0012] FIG. 6 is a side cross-sectional view showing a vehicular bumper structure pertaining to a second embodiment ofthe invention;

[0013] FIG. 7 is a plan cross-sectional view showing the relevant portions of the vehicular bumper structure pertaining to the second embodiment of the invention;

[0014] FIG. 8 is a front view seen from a rear side ofthe vehicle body showing the relevant portions ofthe vehicular bumper structure pertaining to the second embodiment of the invention;

[0015] FIG. 9 is a plan cross-sectional view showing the relevant portions of a vehicular bumper structure pertaining to a modified example of the second embodiment of the invention; and

[0016] FIG. 10 is a plan cross-sectional view showing the relevant portions of a vehicular bumper structure pertaining to another modified example of the second embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0017] A first embodiment of a vehicular bumper structure of the invention will be described in accordance with FIGS. 1 to 5.

[0018] It will be noted that the UP arrow in the drawings represents a vehicle body upper

direction, and that the FR arrow in the drawings represents a vehicle body front direction. [0019] A bumper cover 14 of a front bumper 12 is disposed along a vehicle width

(horizontal) direction at a front end lower portion of an automobile body 10 ofthe present embodiment (FIG. 3). A grill 18 is disposed between a vehicle width-direction intermediate portion ofthe bumper cover 14 and a front end portion of a hood 16. [0020] A bumper reinforcement 20 of the front bumper 12 extends along the vehicle width direction and is disposed across front end portions 22A of left and right front side members

22 (FIG. 1). The side section ofthe bumper reinforcement 20 includes a closed sectional portion 24. The closed sectional portion 24 is divided into three in the vertical direction by ribs 20A and 20B. The ribs 20 A and 20B are formed along a vehicle body longitudinal direction at predetermined intervals in the vehicle body vertical direction. [0021] Load (pressure) detection sensors 28, 30, 32 and 34 are disposed along the vehicle width direction at sites at vehicle body outer sides (front sides) of an upper wall portion 20D, the upper rib 20A, the lower rib 20B and a lower wall portion 20E of a front wall portion 20C ofthe bumper reinforcement 20.

[0022] A load transmitting plate 36 is disposed along the vehicle width direction at vehicle body front side surfaces (vehicle body outer side surfaces) of the load detection sensors 28, 30, 32 and 34. The load transmitting plate 36 is configured by, for example, a resinous material. The load transmitting plate 36 is configured with a predetermined rigidity. The load transmitting plate 36 is configured so that when a load acts on the vehicle body rear side

from the vehicle body front side, the load transmitting plate 36 does not contact the front wall portion 20C ofthe bumper reinforcement 20 at sites between the load detection sensors

28, 30, 32 and 34.

[0023] Engagement pawls 36A and 36B are formed at both upper and lower end portions

ofthe load transmitting plate 35. Due to these engagement pawls 36A and 36B, the load transmitting plate 36 is engaged, from the vehicle body front side, with an upper end edge

portion 20F and a lower end edge portion 20G ofthe front wall portion 20C of the bumper

reinforcement 20. Thus, the engagement pawls 36A and 36B prevent the load transmitting plate 36 from moving in the vehicle body vertical direction with respect to the bumper

reinforcement 20. Moreover, when a load acts on the load transmitting plate 36 from the vehicle body front side towards the vehicle body rear side, the load transmitting plate 36 is displaced towards the vehicle body rear side with respect to the front wall portion 20C ofthe bumper reinforcement 20, whereby the load acts on each ofthe load detection sensors 28, 30, 32 and 34.

[0024] A bumper touch sensor 26 that serves as a collision detection sensor is disposed along the vehicle width direction at a site at the vehicle body front side (vehicle body outer side) ofthe load detection sensor 30 in a vehicle body front side surface (vehicle body outer side surface) 36C ofthe load transmitting plate 36. The bumper touch sensor 26 is fixed with double-sided tape or the like to the vehicle body front side surface 36C of the load transmitting plate 36 via a band-like bracket 27.

[0025] Bumper absorber foam 40 that serves as a collision absorber is disposed at a site at the vehicle body outer side (vehicle body front side) ofthe load transmitting plate 36 and the bumper touch sensor 26, i.e., between the load transmitting plate 36 or the bumper touch

sensor 26 and the bumper cover 14.

[0026] Convex portions 40A, 40B, 40C and 40D are formed facing the vehicle body inner

side (vehicle body rear side) at predetermined intervals in the vehicle body vertical direction

in a rear wall portion of the bumper absorber foam 40. The vertical-direction intermediate

concave portions 40B 40C contact the vehicle body front side surface 36C of the load

transmitting plate 36 in the vicinities above and below the bumper touch sensor 26. [0027] A gap 42 between the bumper touch sensor 26 and a site 40E between the convex

portion 40B and the convex portion 40C ofthe rear wall portion of the bumper absorber

foam 40 narrows.

[0028] Of the convex portions 40A, 40B, 40C and 40D, the upper convex portion 40A and the lower convex portion 40D respectively contact an upper edge portion 36D and its vicinity and a lower edge portion 36E and its vicinity of the vehicle body front side surface

36C of the load transmitting plate 36.

[0029] An engagement pawl portion 40F is formed facing the vehicle body inner side

(vehicle body rear side) at an upper end portion ofthe bumper absorber foam 40. An engagement pawl portion 40F is formed facing the vehicle body inner side (vehicle body rear side) at a lower end portion ofthe bumper absorber foam 40. The load transmitting plate

36 is nipped in the vehicle body vertical direction by the engagement pawl portions 40F and

40G ofthe bumper absorber foam 40, so that the bumper absorber foam 40 is prevented from moving in the vehicle body vertical direction with respect to the load transmitting plate 36 and the bumper reinforcement 20.

[0030] A front wall portion 40H of the bumper absorber foam 40 is substantially flat in the

vehicle body vertical direction.

[0031] Next, the action of the present embodiment will be described.

[0032] In the present embodiment, when a collision body Kl collides with the front bumper 12 (FIG. 3), the bumper absorber foam 40 is pushed, together with the bumper cover

14 of the front bumper 12, from the vehicle body front side towards the vehicle body rear

side by the collision body Kl (FIG. 2). As a result, the site 40E between the convex portion

40B and the convex portion 40C of the rear wall portion of the bumper absorber foam 40

contacts the bumper touch sensor 26, and a load F from the outside is transmitted to the bumper touch sensor 26.

[0033] In this case, in the present embodiment, the load detection sensors 28, 30, 32 and 34 are disposed at predetermined intervals in the vehicle body vertical direction between the load transmitting plate 36, at which the bumper touch sensor 26 is disposed, and the front wall portion 20C of the bumper reinforcement 20. The load transmitting plate 36 is

configured so as to be displaced towards the vehicle body rear side with respect to the front wall portion 20C of the bumper reinforcement 20.

[0034] As a result, in the present embodiment, the entire collision load acting on the load transmitting plate 36 ofthe front bumper 12 due to the collision body Kl can be measured on the basis of each ofthe loads detected by the load detection sensors 28, 30, 32 and 34. [0035] For this reason, in the present embodiment, it becomes possible to discriminate the collision body on the basis of the total value of the collision loads. [0036] For example, in a case where the collision body Kl, where the total value of the collision loads is relatively large, collides with the front bumper 12 (FIG. 3), and in a case where a collision body K2 (FIGS. 4 and 5), where the total value of the collision loads is relatively small, collides with the front bumper 12, it becomes possible to discriminate the collision body Kl and the collision body K2 on the basis of each of the loads detected by the load detection sensors 28, 30, 32 and 34. In particular, the detection performance of the

collision body Kl, where the total value ofthe collision loads for which collision detection is necessary is relatively large, is improved.

[0037] In the present embodiment, due to the engagement pawls 36A and 36B formed at

both the upper and lower end portions ofthe load transmitting plate 36, the load transmitting

plate 36 is engaged from the vehicle body front side with the upper end edge portion 20F and

the lower end edge portion 20G of the front wall portion 20C ofthe bumper reinforcement 20. Thus, by attaching the load detection sensors 28, 30, 32 and 34 to the load transmitting

plate 36 beforehand, the load transmitting plate 36 and the load detection sensors 28, 30, 32 and 34 can be easily attached to the bumper reinforcement 20. This contributes to the

improvement of productivity.

[0038] Next, a second embodiment of the vehicular bumper structure of the invention will

be described with reference to FIGS. 6 to 8.

[0039] With respect to members that are the same as those in the first embodiment, the same reference numerals will be given and description thereof will be omitted. Also, the IN arrow represents the vehicle width inner side direction.

[0040] In the present embodiment, the side sectional shape of a load transmitting plate 50, which extends along the vehicle width direction and is configured by metal, includes a closed sectional portion 51 (FIG. 6). The closed sectional portion 24 is divided into three in the vertical direction by ribs 50A and 50B. The ribs 50A and 50B are formed along the vehicle longitudinal direction at predetermined intervals in the vehicle body vertical

direction.

[0041] Load detection sensors 52 are disposed at predetermined intervals along the vehicle width direction along the vehicle body vertical direction between a vehicle body rear side surface (vehicle body inner side surface) 50C ofthe load transmitting plate 50 and the front

wall portion 20C ofthe bumper reinforcement 20 (FIG. 7).

[0042] The load transmitting plate 50 is configured with a predetermined rigidity. The load transmitting plate 50 is configured so that when a load acts on the vehicle body rear side

from the vehicle body front side, the load transmitting plate 50 does not contact the front

wall portion 20C ofthe bumper reinforcement 20 at sites between the load detection sensors

52. [0043] The load detection sensors 52 are fixed to the bumper reinforcement 20 via brackets

54 and 56 (FIG. 8).

[0044] The bumper reinforcement 20 is fixed by fixing members 60, such as bolts or the like, to the front end portions 22A of the left and right front side members 22 (only the front

side member 22 at the vehicle body right side is shown in FIG.7). The load transmitting plate 50 is attached from the vehicle body front side by shoulder bolts 64 to nuts 62 fixed to the

front end portions 22A of the left and right front side members 22 or the bumper reinforcement 20.

[0045] Thus, due to the nuts 62 and the shoulder bolts 64, the load transmitting plate 50 is prevented from moving in the vehicle body vertical direction with respect to the bumper reinforcement 20. Moreover, when a load acts on the load transmitting plate 50 from the vehicle body front side towards the vehicle body rear side, the load transmitting plate 50 is displaced towards the vehicle body rear side with respect to the front wall portion 20C ofthe bumper reinforcement 20, whereby the load acts on each of the load detection sensors 52. [0046] A bumper touch sensor 26 that serves as a collision detection sensor is disposed along the vehicle width direction at a site at the vehicle body front side (vehicle body outer side) ofthe rib 50A at a vehicle body front side surface (vehicle body outer side surface) 50D ofthe load transmitting plate 50 (FIG. 6). The bumper touch sensor 26 is fixed with double-sided tape or the like to the vehicle body front side surface 50D of the load

transmitting plate 50 via a band-like bracket 27.

[0047] Bumper absorber foam 40 that serves as a collision absorber is disposed at a site at

the vehicle body outer side (vehicle body front side) ofthe load transmitting plate 50 and the

bumper touch sensor 26, i.e., between the load transmitting plate 50 or the bumper touch

sensor 26 and the bumper cover 14. [0048] Convex portions 40A, 40B, 40C and 40D are formed facing the vehicle body inner side (vehicle body rear side) at predetermined intervals in the vehicle body vertical direction

in the rear wall portion ofthe bumper absorber foam 40. The vertical-direction intermediate convex portions 40B 40C contact the vehicle body front side surface 50D of the load

transmitting plate 50 in the vicinities above and below the bumper touch sensor 26.

[0049] A gap 42 between the bumper touch sensor 26 and a site 40E between the convex

portion 40B and the convex portion 40C of the rear wall portion of the bumper absorber foam 40 narrows.

[0050] Of the convex portions 40A, 40B, 40C and 40D, the upper convex portion 40A and the lower convex portion 40D respectively contact an upper edge portion 50E and its vicinity and a lower edge portion 50F and its vicinity of the vehicle body front side surface 50D of the load transmitting plate 50.

[0051] An engagement pawl portion 40F is formed facing the vehicle body inner side

(vehicle body rear side) at an upper end portion of the bumper absorber foam 40. An engagement pawl portion 40G is formed facing the vehicle body inner side (vehicle body rear side) at a lower end portion of the bumper absorber foam 40. The engagement pawl portions 40F and 40G of the bumper absorber foam 40 nip the load transmitting plate 50 in the vehicle body vertical direction, so that the bumper absorber foam 40 is prevented from

moving in the vehicle body vertical direction with respect to the load transmitting plate 50 and the bumper reinforcement 20.

[0052] A front wall portion 40H of the bumper absorber foam 40 is substantially flat in the vehicle body vertical direction.

[0053] Next, the action of the present embodiment will be described.

[0054] In the present embodiment, when a collision body Kl collides with the front bumper 12 (FIG. 3), the bumper absorber foam 40 is pushed, together with the bumper cover

side by the collision body Kl . As a result, the site 40E between the convex portion 40B and the convex portion 40C ofthe rear wall portion ofthe bumper absorber foam 40 contacts the bumper touch sensor 26, and the load from the outside is transmitted to the bumper touch sensor 26.

[0055] In this case, in the present embodiment, the plural load detection sensors 52 are disposed at predetermined intervals in the vehicle width direction between the load transmitting plate 50, at which the bumper touch sensor 26 is disposed, and the front wall portion 20C ofthe bumper reinforcement 20. Due to this configuration, the load transmitting plate 50 is displaced towards the vehicle body rear side with respect to the front wall portion 20C of the bumper reinforcement 20.

[0056] As a result, in the present embodiment, the entire collision load acting on the load transmitting plate 50 ofthe front bumper 12 due to the collision body can be measured on the basis of each of the loads detected by the plural load detection sensors 52 disposed at predetermined intervals in the vehicle width direction.

[0057] For this reason, in the present embodiment, it becomes possible to discriminate the

collision body on the basis of the total value of the collision loads. [0058] For example, in a case where the collision body Kl, where the total value ofthe collision loads is relatively large, collides with the front bumper 12 (FIG. 3), and in a case

where a collision body K2, where the total value of the collision loads is relatively small,

collides with the front bumper 12 (FIG. 5), it becomes possible to discriminate the collision

body Kl and the collision body K2 on the basis of each of the loads detected by the load

detection sensors 52. In particular, the detection performance ofthe collision body Kl, where the total value of the collision loads for which collision detection is necessary is relatively large, is improved.

[0059] As shown in FIG.9, the second embodiment may also be configured so that the load transmitting plate 50 is plurally divided (e.g., into four) in the vehicle width direction, and so that a predetermined number ofthe load detection sensors 52 are disposed at predetermined intervals along the vehicle width direction along the vehicle body vertical direction between the vehicle body rear side surfaces (vehicle body inner side surfaces) 50C ofthe load transmitting plates 50 and the front wall portion 20C ofthe bumper reinforcement 20. [0060] In the instance of the configuration shown in FIG. 9, the detection performance of the collision body, where the total value ofthe collision loads for which collision detection is necessary is relatively large, is improved, and it can be determined at which position in the vehicle width direction of the front bumper 12 the collision body contacted by mutually comparing the total value of the collision loads ofthe load detection sensors 52 dispersed in the vehicle width direction with respect to the load transmitting plates 50 divided in the vehicle width direction.

[0061] As a result, an operating mode of a collision body protection device is switchable on the basis of the positions in the vehicle width direction of the front bumper 12 at which

collision bodies have contacted.

[0062] For example, the following operation becomes possible. In the case of a vehicle body 10 where air bags covering A pillar portions are disposed independently at the left and

right, only the air bag covering the right-side A pillar portion is deployed when a control

device determines, on the basis of the loads detected by the load detection sensors 52, that a

collision body has contacted the right side of the front bumper 12. When the control device

determines that a collision body has contacted the left side of the front bumper 12, only the air bag covering the left-side A pillar portion is deployed. When the control device determines that a collision body has contacted the vehicle width-direction intermediate

portion of the front bumper 12, the air bags covering both the left- and right-side A pillar portions are deployed.

[0063] As shown in FIG. 10, the number of load detection sensors 52 can be reduced by

configuring the load detection sensors 52 contacting end portions 50G of adjacent load transmitting plates 50 with one load detection sensor.

[0064] The present invention has been described in detail above in regard to specific embodiments, but the present invention should not be construed as being limited to these embodiments. It will be apparent to those skilled in the art that other embodiments are possible within the scope ofthe invention. For example, the bumper touch sensor 26 may be eliminated, and the load (pressure) detection sensors 28, 30, 32 and 34 may also serve as collision detection sensors.

[0065] The side sectional shapes of the bumper reinforcement 20 and the load transmitting plate 50 are not limited to shapes having a closed sectional portion divided into three in the vertical direction by two ribs. They may also have shapes divided into two in the vertical direction by one rib. Also, the side sectional shapes of the bumper reinforcement 20 and the load transmitting plate 50 may also have shapes such as a ladder divided in the vertical direction by three or more ribs.

[0066] The materials of the load transmitting plates 36 and 50 are not limited to resin and

metal, and may be other materials.

[0067] The number of divisions of the load transmitting plate 50 in the vehicle width

direction is not limited to four, and may be another number such as three.

[0068] The vehicular bumper structure of the invention is also applicable to a bumper other than the front bumper 12, and is also applicable to a rear bumper.

[0069] The plural load detection sensors of the invention may also be dispersed and disposed in the vehicle body vertical direction.

[0070] When the plural load detection sensors are dispersed and disposed in the vehicle body vertical direction, the collision body can be discriminated by comparing the total ofthe collision loads detected by the load detection sensors at the vehicle body upper side with the total ofthe collision loads detected by the load detection sensors at the vehicle body lower

side.

[0071] The invention may also be configured so that plural load detection sensors are dispersed and disposed in the vehicle width direction, and so that the load transmitting plate is divided in the vehicle width direction.

[0072] When plural load detection sensors are dispersed and disposed in the vehicle width direction and the load transmitting plate is divided in the vehicle width direction, the position ofthe collision in the vehicle width direction ofthe bumper can be identified by mutually comparing the total of the collision loads of the load detection sensors disposed in the vehicle width direction facing the load transmitting plates divided in the vehicle width

direction.

[0073] The vehicular bumper structure of the invention includes a bumper reinforcement that extends along a vehicle width direction, plural load detection sensors disposed at a vehicle body outer side surface of the bumper reinforcement, and a load transmitting plate disposed at vehicle body outer side surfaces of the plural load detection sensors, whereby

collision detection performance can be improved.

Claims

CLALMES

1. A vehicular bumper structure comprising: a bumper reinforcement that extends along a vehicle width direction; plural load detection sensors disposed at a vehicle body outer side surface of the

bumper reinforcement; and a load transmitting plate disposed at vehicle body outer side surfaces of the plural

load detection sensors.

2. The vehicular bumper structure of claim 1, wherein the plural load detection sensors are dispersed and disposed in a vehicle body vertical direction.

3. The vehicular bumper structure of claim 1, wherein the plural load detection sensors are dispersed and disposed in the vehicle width direction, and the load transmitting plate is divided in the vehicle width direction.

4. The vehicular bumper structure of claim 1, further comprising a collision detection sensor

disposed on the load transmitting plate.

5. The vehicular bumper structure of claim 1, wherein the load transmitting plate has a rigidity such that, when a certain load acts in a longitudinal direction ofthe vehicle body, the

load transmitting plate does not contact a front wall of the bumper reinforcement between adjacent sensors of the load detection sensors.

6. A collision detection method applicable to a vehicular bumper system, the method comprising: measuring, with plural sensors, loads resulting from at least one occurring impact; comparing the values ofthe loads measured by the plural sensors; and discriminating the at least one impact on the basis ofthe result of measurement by the plural sensors.

7. A method of switching a vehicular collision body protection device, the method comprising: measuring, with plural sensors, loads resulting from at least one occurring impact; comparing the values ofthe loads measured by the plural sensors; and discriminating an occurrence position of the at least one impact on the basis ofthe result of measurement by the plural sensors.

8. The method of claim 7, wherein discriminating the occurrence position of the impact includes discriminating an occurrence position in a horizontal direction.

9. A method of manufacturing a vehicular bumper, the method comprising: disposing a front bumper reinforcement in a vehicle width direction; disposing plural ribs at the reinforcement at intervals along one direction; disposing plural pressure sensors at a vehicle front side member ofthe reinforcement; and disposing a load transmitting member at the vehicle front side ofthe disposed plural

pressure sensors.

10. The manufacturing method of claim 9, further comprising disposing a collision detection

sensor on the load transmitting member at a position at the vehicle front side in regard to one of the plural pressure sensors.