JP6507816B2 - Vehicle rear structure - Google Patents

Description

  The present invention relates to a vehicle rear structure to which a rear shock absorber is attached.

  In the conventional vehicle rear structure, a rear shock absorber is mounted to attenuate vibrations of a traveling vehicle, etc., and the upper end of the rear shock absorber is attached to a wheelhouse inner panel provided with reinforcement, etc. ing. In such a vehicle rear structure, the push-up load from the rear shock absorber is dispersed from the shock absorber mounting portion to the entire wheel house inner panel and transmitted to and absorbed by the vehicle body frame member. There is one (see, for example, Patent Document 1).

JP, 2014-61809, A

  However, in the above-described conventional vehicle rear structure, it is necessary to increase the thickness of the reinforcement in order to cope with the case where the push-up load from the rear shock absorber is large or the like, which causes an increase in weight. I had a concern.

  The present invention has been made in view of such circumstances, and its object is to suppress the pressure on the interior space of the vehicle, to disperse the input load from the rear shock absorber in the vertical direction of the vehicle, and to twist the vehicle body. An object of the present invention is to provide a vehicle rear portion structure capable of improving rigidity.

In order to solve the problems of the prior art, according to the present invention, there is provided a quarter panel whose upper end is joined to the rear pillar, and a wheelhouse inner panel which is disposed under the quarter panel and whose lower end is joined to the rear floor. In the rear portion structure of the vehicle, rear pillar inner reinforcements extending in the vertical direction of the vehicle are disposed on the vehicle cabin side of the quarter panel and the wheel house inner panel, and the rear pillar inner reinforcement The upper portion is joined to the quarter panel, and the lower portion of the rear pillar inner reinforcement is joined to a rear shock absorber holding portion located at the upper portion of the wheel house inner panel, and the vehicle interior side of the wheel house inner panel Is a wheel that extends in the vertical direction of the vehicle An upper portion of the wheelhouse inner reinforcement is joined to the rear shock absorber holding portion, and a lower portion of the wheelhouse inner reinforcement is disposed on the wheelhouse inner panel. It is joined to the lower part, the above-mentioned rear pillar inner reinforcement and the above-mentioned wheel house inner reinforcement are arranged adjacently, and the upper end of the above-mentioned rear pillar inner reinforcement is joined to the above-mentioned rear pillar, The forcement is disposed to extend to the lower end portion of the wheel house inner panel .

  Furthermore, in the present invention, the rear pillar inner reinforcement and the wheel house inner reinforcement are combined with the rear shock absorber holding portion by overlapping the flange portion of the inner reinforcement on the rear shock absorber holding portion. The three pieces are joined together.

  Further, in the present invention, the ridge line of the wheel house inner reinforcement is parallel to the axis of the rear shock absorber attached to the mounting seat surface of the rear shock absorber holding portion, and the attachment of the rear shock absorber holding portion It extends in a direction perpendicular to the seat surface.

  In the present invention, the lower portion of the rear pillar inner reinforcement is disposed so as to surround the mounting seat surface of the rear shock absorber holding portion.

  Furthermore, in the present invention, the rear pillar inner reinforcement is joined to the rear pillar outer reinforcement in a three-piece manner with the quarter panel interposed therebetween.

As described above, the vehicle rear structure according to the present invention is provided with a quarter panel whose upper end is joined to the rear pillar, and a wheel house inner panel which is disposed under the quarter panel and whose lower end is joined to the rear floor. A rear pillar inner reinforcement extending in the vertical direction of the vehicle is disposed on the vehicle cabin side of the quarter panel and the wheel house inner panel, and the upper portion of the rear pillar inner reinforcement is the rear pillar inner reinforcement. A lower portion of the rear pillar inner reinforcement is joined to a rear shock absorber holding portion located on an upper portion of the wheelhouse inner panel while being joined to a quarter panel, and a vehicle is provided on the vehicle interior side of the wheelhouse inner panel. Vertically extending wheelhouse innerline An upper portion of the wheelhouse inner reinforcement is joined to the rear shock absorber holding portion, and a lower portion of the wheelhouse inner reinforcement is joined to a lower portion of the wheelhouse inner panel. The rear pillar inner reinforcement and the wheel house inner reinforcement are disposed adjacent to each other , and the upper end portion of the rear pillar inner reinforcement is joined to the rear pillar, and the wheel house inner reinforcement is Since the wheel house inner panel is disposed to extend to the lower end portion, two inner reinforcements extending in the vertical direction of the vehicle are provided adjacent to the interior side of the quarter panel and the wheel house inner panel. A baby To become.
Therefore, in the vehicle rear structure of the present invention, the presence of two inner reinforcements on the vehicle interior side of the quarter panel and the wheel house inner panel suppresses pressure on the interior space of the vehicle from the rear shock absorber. The input load can be dispersed in the vertical direction of the vehicle and effectively absorbed, and the torsional rigidity of the vehicle body at the rear of the vehicle can be improved. In addition, since it is not necessary to increase the thickness of the inner reinforcement in response to a large push-up load from the rear shock absorber, a significant increase in weight can be prevented.
Further, according to the vehicle rear portion structure of the present invention, the torsional rigidity of the vehicle body at the rear portion of the vehicle can be further improved.

  Furthermore, in the present invention, the rear pillar inner reinforcement and the wheel house inner reinforcement are combined with the rear shock absorber holding portion by overlapping the flange portion of the inner reinforcement on the rear shock absorber holding portion. Since the three sheets are joined together, dispersion of the load input from the rear shock absorber can be promoted.

  Further, in the present invention, the ridge line of the wheel house inner reinforcement is parallel to the axis of the rear shock absorber attached to the mounting seat surface of the rear shock absorber holding portion, and the attachment of the rear shock absorber holding portion Since it extends in the direction perpendicular to the seat surface, the rigidity of the rear shock absorber holding portion can be improved with respect to the input load from the rear shock absorber.

  Furthermore, in the present invention, the lower portion of the rear pillar inner reinforcement is disposed so as to surround the mounting seat surface of the rear shock absorber holding portion, so that the strength of the mounting seat surface of the rear shock absorber holding portion is increased. In addition, the input load from the rear shock absorber can be dispersed to the surrounding wheel house inner panel, rear pillar inner reinforcement, and the like.

  Further, in the present invention, since the rear pillar inner reinforcement is joined to the rear pillar outer reinforcement with three pieces sandwiching the quarter panel therebetween, the quarter panel is against the input load from the rear shock absorber. The rigidity of the vehicle can be improved, and the deflection of the quarter panel in the vehicle width direction can be prevented.

FIG. 1 is a perspective view of a vehicle interior side rear of a vehicle to which a rear structure according to an embodiment of the present invention is applied, viewed obliquely from above in front of the vehicle. It is a perspective view which expands and shows the junction part of the rear pillar inner reinforcement and wheel house inner reinforcement used for the vehicle rear part structure of embodiment of this invention. It is the sectional view on the AA line in FIG. FIG. 1 is a perspective view of a vehicle compartment outer side rear portion of a vehicle to which a rear structure according to an embodiment of the present invention is applied, viewed obliquely from above the front side of the vehicle.

Hereinafter, the present invention will be described in detail based on the illustrated embodiments.
1 to 4 show a vehicle rear structure according to an embodiment of the present invention. In the present embodiment, the right side of the vehicle is described, but the same description is applied to the left side of the vehicle. Moreover, in FIG.1 and FIG.4, the arrow Fr direction has shown the vehicle front.

In the vehicle rear portion 1 to which the vehicle rear portion structure according to the embodiment of the present invention is applied, the upper end portion 3a is joined to the lower end portion 2b of the rear pillar 2 supporting the vehicle rear portion 1 as shown in FIGS. A quarter wheel 3 and a rear wheel house 5 disposed under the quarter panel 3 and having a lower end joined to a vehicle width direction side portion 4a of a rear floor 4 forming a floor surface of the rear portion 1 of the vehicle The upper end 2 a of the rear pillar 2 is joined to the side body 11.
In addition, the entire rear wheel house 5 is formed in an arch shape curving toward the upper side of the vehicle and surrounding an upper side of a rear tire (not shown), and a wheel house inner panel 51 disposed on the vehicle interior R side; And a wheel house outer panel 52 disposed on the O side outside the vehicle. The wheel house inner panel 51 extends toward the vehicle interior R side, and the wheel house outer panel 52 extends toward the vehicle exterior O side, and by joining the overlapping portions of the upper outer peripheral portion, the rear tire is obtained. A hollow rear wheel house 5 is configured to surround the upper side.

  As shown in FIGS. 1 to 3, the upper end portion 6 a of the rear shock absorber 6 that attenuates vibration and the like of the traveling vehicle is held on the vehicle interior R side behind the vehicle of the wheel house inner panel 51 of the present embodiment. A rear shock absorber holding panel (rear shock absorber holding portion) 7 is attached. Therefore, the rear shock absorber holding panel 7 is inclined downward from the upper portion of the wheelhouse inner panel 51 toward the vehicle interior R side and extends over a predetermined length, and the upper end 7a extends between the upper end 52a of the wheelhouse outer panel 52 It is joined to the lower end portion 3 b of the quarter panel 3 by sandwiching. Further, the rear shock absorber holding panel 7 is formed in a substantially cylindrical shape in which the middle portion is recessed, and the outer peripheral edge portion of the middle portion is joined to the surface of the wheel house inner panel 51 on the vehicle interior R side. Further, the bottom surface of the middle portion of the rear shock absorber holding panel 7 is formed to be a flat surface and serves as a mounting seat surface 71 to which the upper end portion 6a of the rear shock absorber 6 is mounted. An insertion hole 72 for inserting the upper end 6 a of the absorber 6 is formed. An insertion hole (not shown) through which the upper end 6 a of the rear shock absorber 6 is inserted is formed in the wheel house inner panel 51 correspondingly to the insertion hole 72. As shown in FIGS. 1 and 4, rear shock absorber 6 is arranged to extend in the vertical direction of the vehicle, and lower end portion 6b is held by a connecting member (not shown) via pin 61 or the like. It is done.

On the other hand, in the vehicle rear structure of the present embodiment, a rear pillar inner extending in the vehicle vertical direction as shown in FIGS. 1 to 3 on the vehicle interior R side behind the quarter panel 3 and the wheelhouse inner panel 51. A reinforcement 8 is arranged. The rear pillar inner reinforcement 8 is provided to reinforce the quarter panel 3 and the wheel house inner panel 51, and the upper portion 81 of the rear pillar inner reinforcement 8 sandwiches the lower end portion 2 of the rear pillar 2 therebetween. The lower panel 82 of the rear pillar inner reinforcement 8 is joined to the upper portion of the wheel house inner panel 51 located around the rear shock absorber holding panel 7 as well as being joined to the upper end 3 a of the quarter panel 3. Therefore, the rear pillar inner reinforcement 8 is bent in a shape along the surface of the quarter panel 3 and the wheel house inner panel 51 on the vehicle interior R side, and has a cross section substantially hat type having a flange portion 8a for joining at the outer peripheral edge It is formed in shape.
The lower portion 82 of the rear pillar inner reinforcement 8 is arranged to surround the mounting seat surface 71 of the rear shock absorber holding panel 7. An opening 83 for attaching the rear shock absorber 6 is provided in a lower portion 82 of the rear pillar inner reinforcement 8. Thereby, the strength of the mounting seat surface 71 of the rear shock absorber holding panel 7 is enhanced, and the input load from the rear shock absorber 6 is dispersed to the wheel house inner panel 51, the rear pillar inner reinforcement 8, etc. It has become.

Further, as shown in FIG. 1 and FIG. 2, a wheel house inner reinforcement 9 extending in the vertical direction of the vehicle is disposed on the vehicle interior R side of the wheel house inner panel 51. The wheelhouse inner reinforcement 9 is provided to reinforce the wheelhouse inner panel 51, and the upper portion 91 of the wheelhouse inner reinforcement 9 is joined to the rear shock absorber holding panel 7, and The lower portion 92 of the wheelhouse inner reinforcement 9 is joined to the lower portion of the wheelhouse inner panel 51. Therefore, the wheelhouse inner reinforcement 9 is bent in a shape along the surface on the vehicle interior R side of the rear shock absorber holding panel 7 and the wheelhouse inner panel 51, and has a flange portion 9a for joining at the outer peripheral edge It is formed in an approximate hat-like shape, and in a joined state with the wheel house inner panel 51, it has a closed cross-sectional structure capable of enhancing the rigidity.
Moreover, the rear pillar inner reinforcement 8 and the wheel house inner reinforcement 9 are disposed adjacent to each other, and the wheel house inner reinforcement 9 is located on the vehicle front side relative to the rear pillar inner reinforcement 8. ing.

Furthermore, as shown in FIGS. 1 and 3, the upper end 81a of the rear pillar inner reinforcement 8 is bent at a substantially right angle from the upper portion 81 toward the vehicle interior R side and joined to the lower surface of the rear pillar 2 The inner reinforcement 9 is disposed to extend to the lower end portion 51 a of the wheel house inner panel 51. Thereby, the torsional rigidity of the vehicle body of the vehicle rear portion 1 having the rear pillar 2 and the wheel house inner panel 51 is enhanced.
The rear pillar inner reinforcement 8 and the wheel house inner reinforcement 9 are, as shown in FIGS. 1 and 2, the front flange portion 8a and the flange portions 8a and 9a of the inner reinforcements 8 and 9 respectively. By overlapping the rear side flange portion 9 a on the rear shock absorber holding panel 7, three sheets are joined together with the rear shock absorber holding panel 7 to form a three-piece joint W. Thereby, the load input from the rear shock absorber 6 is smoothly dispersed to the rear pillar inner reinforcement 8, the wheel house inner reinforcement 9, etc. via the wheel house inner panel 51, and the input load from the rear shock absorber 6 Distribution is being promoted. In addition, the wheel house inner panel 51 is notched or opened in the part where three sheets of the rear pillar inner reinforcement 8, the wheel house inner reinforcement 9, and the rear shock absorber holding panel 7 are overlapped. The wheel house inner panel 51 is not present.

  In addition, as shown in FIGS. 1 and 2, the wheelhouse inner reinforcement 9 has a substantially hat-shaped cross section including a flange portion 9a, a vertical wall surface portion 9b and an upper surface portion 9c. The boundary with the portion 9 c is configured as a ridge line 93. The ridge line 93 of the wheelhouse inner reinforcement 9 is parallel to the axial center C of the rear shock absorber 6 mounted on the mounting seat surface 71 of the rear shock absorber holding panel 7 and is of the rear shock absorber holding panel 7. It extends perpendicularly to the mounting seat surface 71. Thereby, the rigidity of the rear shock absorber holding panel 7 and the wheel house inner panel 51 and the like in the vicinity of the input load from the rear shock absorber 6 can be enhanced.

  Furthermore, in the vehicle rear structure of the present embodiment, as shown in FIGS. 1 and 4, the rear pillar outer reinforcement 10 is disposed so as to be superimposed on each other with the quarter panel 3 interposed therebetween. The rear pillar inner reinforcement 8, the quarter panel 3 and the rear pillar outer reinforcement 10 are joined together in three pieces. Therefore, the rear pillar outer reinforcement 10 is formed in a substantially hat-shaped cross section having a flange portion 10a for joining, a vertical wall portion 10b and an upper surface portion 10c on the outer peripheral edge. As a result, the rigidity of the quarter panel 3 is improved with respect to the input load from the rear shock absorber 6, and the deflection of the quarter panel 3 in the vehicle width direction is prevented. The lower flange portion 10 a of the rear pillar outer reinforcement 10 is joined to the upper surface of the wheel house outer panel 52.

As described above, in the vehicle rear structure according to the embodiment of the present invention, the rear pillar inner reinforcement 8 extending in the vehicle vertical direction is on the vehicle interior R side of the quarter panel 3 and the wheel house inner panel 51 of the vehicle rear 1. The upper portion 81 of the rear pillar inner reinforcement 8 is joined to the quarter panel 3 and the lower portion 82 of the rear pillar inner reinforcement 8 is joined to the rear shock absorber holding panel 7 positioned on the wheel house inner panel 51 The wheelhouse inner reinforcement 9 extending in the vertical direction of the vehicle is disposed on the vehicle interior R side of the wheelhouse inner panel 51, and the upper portion 91 of the wheelhouse inner reinforcement 9 is the rear shock absorber holding panel 7 Bonded to the wheelhouse Runner bottom 92 of reinforcements 9 is joined to the lower portion of the wheel house inner panel 51, and the rear pillar inner reinforcements 8 and the wheel house inner reinforcements 9 are arranged adjacent.
Therefore, in the vehicle rear portion structure of the present embodiment, even when the load from the rear shock absorber 6 is input to the rear shock absorber holding panel 7 and the wheel house inner panel 51, the input load corresponds to the rear pillar inner reinforcement 8 and the wheel. Since the components are dispersed to peripheral parts in the vertical direction of the vehicle via the house inner reinforcement 9, it is possible to improve the torsional rigidity of the vehicle body at the rear portion 1 of the vehicle. Further, even if the rear pillar inner reinforcement 8 and the wheel house inner reinforcement 9 are disposed on the R side of the quarter panel 3 and the wheel house inner panel 51, the vehicle does not project largely to the R side of the vehicle interior. Since it extends in the direction, it is possible to suppress the pressure of the space in the passenger compartment R, and a comfortable living space can be secured. Furthermore, since there is no need to increase the thickness of the inner reinforcements 8 and 9 in response to a large push-up load from the rear shock absorber 6, significant weight increase of the vehicle rear 1 can be prevented. Cost reduction can be realized.

  Although the embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and various modifications and changes are possible based on the technical idea of the present invention.

  For example, in the embodiment described above, the rear shock absorber holding panel 7 is a component separate from the wheel house inner panel 51, but the rear shock absorber holding portion is a wheel house without using the rear shock absorber holding panel 7. It may be provided integrally with the inner panel 51. In this case, the rear pillar inner reinforcement 8 and the flange portions 8a and 9a of the wheel house inner reinforcement 9 are joined together by overlapping them on the wheel house inner panel 51 of the rear shock absorber holding portion. There is.

1 vehicle rear portion 2 rear pillar 3 quarter panel 4 rear floor 5 rear wheel house 6 rear shock absorber 6a upper end portion 7 rear shock absorber holding panel (rear shock absorber holding portion)
7a Upper end portion 8 Rear pillar inner reinforcement 8a Flange portion 9 Wheelhouse inner reinforcement 9a Flange portion 10 Rear pillar outer reinforcement 51 Wheel house inner panel 52 Wheel house outer panel 71 Mounting surface 72 Insertion hole 81 Rear pillar inner reinforcement Upper part 81a Rear pillar inner reinforcement upper part 82 Rear pillar inner reinforcement lower 91 Wheelhouse inner reinforcement upper 92 Wheelhouse inner reinforcement lower 93 Wheelhouse inner reinforcement ridgeline C rear shock absorber Axial center R interior of car W 3-piece junction

Claims (5)

In a vehicle rear structure provided with a quarter panel in which an upper end portion is joined to a rear pillar and a wheel house inner panel disposed on the lower side of the quarter panel and in which a lower end portion is joined to a rear floor
A rear pillar inner reinforcement extending in the vertical direction of the vehicle is disposed on the vehicle cabin side of the quarter panel and the wheel house inner panel, and an upper portion of the rear pillar inner reinforcement is joined to the quarter panel. The lower portion of the rear pillar inner reinforcement is joined to a rear shock absorber holding portion located at the upper portion of the wheel house inner panel,
A wheelhouse inner reinforcement extending in the vertical direction of the vehicle is disposed on the vehicle cabin side of the wheelhouse inner panel, and an upper portion of the wheelhouse inner reinforcement is joined to the rear shock absorber holding portion. And the lower portion of the wheelhouse inner reinforcement is joined to the lower portion of the wheelhouse inner panel,
The rear pillar inner reinforcement and the wheel house inner reinforcement are disposed adjacent to each other ,
An upper end portion of the rear pillar inner reinforcement is joined to the rear pillar, and the wheel house inner reinforcement is disposed to extend to a lower end portion of the wheel house inner panel. Construction. The rear pillar inner reinforcement and the wheel house inner reinforcement are joined together in three sheets together with the rear shock absorber holding portion by overlapping the flange portion of the inner reinforcement on the rear shock absorber holding portion. The vehicle rear structure according to claim 1, characterized in that: The ridge line of the wheelhouse inner reinforcement is parallel to the axial center of the rear shock absorber attached to the mounting seat of the rear shock absorber holder, and perpendicular to the mounting seat of the rear shock absorber holder. Vehicle rear structure according to claim 1 or 2, characterized in that it extends in a direction . The vehicle rear structure according to any one of claims 1 to 3 , wherein a lower portion of the rear pillar inner reinforcement is disposed so as to surround a mounting seat surface of the rear shock absorber holding portion . The vehicle rear structure according to any one of claims 1 to 4, wherein the rear pillar inner reinforcement is joined to the rear pillar outer reinforcement in a three-piece manner with the quarter panel interposed therebetween .

Images