JP4110841B2 - Vehicle rear structure - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a vehicle rear structure that can obtain desired vehicle body rigidity without increasing the weight and can improve the degree of freedom in designing the shape and size of an opening.
[0002]
[Prior art]
Conventionally, as a vehicle rear part structure, a structure as shown in FIGS. 7 to 9 is known.
[0003]
In the sedan vehicle 1 shown in FIG. 7, a trunk room opening 3 a is formed in the upper part of the trunk room 3 provided behind the passenger compartment 2.
[0004]
A trunk lid 3b is pivotally supported at the front side edge of the trunk room opening 3a so as to be able to open and close the trunk room opening 3a.
[0005]
A trunk through opening 5 is formed in the seat back panel 4 provided between the passenger compartment 2 and the trunk room 3.
[0006]
The interior of the trunk room 3 is communicated with the passenger compartment 2 through the trunk through opening 5 by tilting the seat back portion 2b of the rear seat 2a in the passenger compartment 2 toward the front of the vehicle. It is configured as follows.
[0007]
Further, in the hatchback vehicle 6 shown in FIG. 8, the back door opening 7 is formed in the rear upper surface side of the vehicle body.
[0008]
A back door 8 is pivotally supported on the roof side edge 7 a of the back door opening 7 so as to be able to open and close the back door opening 7.
[0009]
Furthermore, in the convertible vehicle 9 as shown in FIG. 9, the trunk room 11 is provided behind the passenger compartment 10, and the trunk room opening part 11a is formed.
[0010]
Furthermore, the convertible vehicle 9 is configured such that the upper roof portion of the passenger compartment 10 can be opened and closed or removed.
[0011]
For this reason, in this convertible vehicle 9, since the upper surface of the vehicle body opens in a large area, a reinforcing member such as a roll bar 12 is provided along the vehicle width direction to avoid a decrease in vehicle body rigidity.
[0012]
[Problems to be solved by the invention]
However, the hatchback vehicle 6 or the convertible vehicle 9 has a relatively large vehicle body opening area, so that it is formed of a thick pipe material or the like along the vehicle width direction in order to avoid a decrease in vehicle body rigidity. There has been a problem that a reinforcing member such as the roll bar 12 has to be provided, which increases the weight of the vehicle body.
[0013]
Therefore, the present invention has been made paying attention to such a conventional problem, and it is an object of the present invention to provide a vehicle rear structure capable of improving vehicle body rigidity while suppressing an increase in vehicle body weight.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, in the vehicle rear portion structure according to claim 1, the rear floor panel is disposed at the rear portion of the vehicle from a seat cross member extending in the vehicle width direction in the vicinity of the vehicle interior floor portion toward the rear of the vehicle. The rear structure of the extended vehicle includes a second seat cross member that is spaced apart from the seat cross member toward the rear of the vehicle and extends in the vehicle width direction on the upper surface of the rear floor panel. An upper floor panel is formed between the cross member and the seat cross member so as to form a large closed cross-section between the rear floor panel, and the upper surface side of the upper floor panel has a cross section substantially omitted. It is characterized by a vehicle rear structure that has a hat shape and has an upper member that extends along the vehicle width direction and forms a small closed cross section with the upper floor panel.
[0015]
According to the first aspect of the present invention configured as above, by providing the upper floor panel, a large closed cross section is formed between the second cross member and the seat cross member, and the upper member is provided. As a result, a small closed cross section is formed between the upper member and the upper floor panel, and a two-stage closed cross section is formed vertically.
[0016]
For this reason, it has high rigidity with respect to load input in the bending direction of the floor panel that acts in the vertical direction of the vehicle, and also has high rigidity with respect to load input that acts from the side of the vehicle.
[0017]
In addition, the large closed cross section is configured by using the rear floor panel, and the upper floor panel constituting the small closed cross section can be shared by both the large and small closed cross sections.
[0018]
For this reason, the vehicle body rigidity can be improved while the member efficiency is good and the increase in the vehicle body weight is suppressed.
[0019]
According to a second aspect of the present invention, the front end portion of the upper floor panel is provided with a front vertical wall portion that is inclined downward toward the front of the vehicle and connects a lower end edge to the seat cross member. The vehicle rear portion structure according to claim 1, wherein a floor panel opening that communicates the vehicle interior space with the large closed cross-section space is formed in the front side wall.
[0020]
According to the second aspect of the present invention configured as above, since the floor panel can be welded from the vehicle interior space side through the floor panel opening, the workability can be improved. it can.
[0021]
Further, when the space in the large closed cross section is used as a storage section, the stored items in the large closed cross section can be taken in and out from the vehicle interior space side through the floor panel opening, which is convenient for use. Good properties.
[0022]
In addition, since the opening of the floor panel is formed in the front side wall of the upper floor panel, the weight of the opening can be further reduced.
[0023]
According to a third aspect of the present invention, the front vertical wall of the upper member is formed with a member opening that communicates the space in the small cross section and the space in the vehicle interior. It features a vehicle rear structure.
[0024]
When the space in the small closed cross section is used as a storage section, the stored item in the small closed cross section from the vehicle interior space side through the member opening is used. The convenience of use is good.
[0025]
Moreover, since the member opening is formed in the front vertical wall of the upper member, the weight can be further reduced by the opening area.
[0026]
Further, since the member opening is formed in the front vertical wall of the upper member having relatively high rigidity, the car audio speaker can be mounted by using the periphery of the member opening. Is attached to a highly rigid part, and a good acoustic effect is obtained.
[0041]
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1
1 to 6 show a vehicle rear structure of the present invention.
[0042]
The same or equivalent parts as those in the conventional example will be described with the same reference numerals.
[0043]
First, as described from the configuration, a luggage opening 18 is formed in an upper portion of a luggage space 17 provided at the rear of the passenger compartment 2 at the rear portion of the vehicle 16 according to the first embodiment.
[0044]
A back door (not shown) is pivotally supported on the front side edge 18a of the luggage opening 18 via a hinge portion so as to be pivotable in the vertical direction so that the luggage opening 18 is opened and closed. Has been.
[0045]
A front floor panel 19 is provided on the floor of the passenger compartment 2.
[0046]
The front floor panel 19 has a tunnel portion 20 that extends in the vehicle front-rear direction and passes through the center shaft and the like on the lower surface side of the front floor panel 19 so as to bulge upward.
[0047]
A seat cross member 21 extending along the vehicle width direction is connected to the rear end edge 20a of the tunnel portion 20 and the rear end edge 19a of the front floor panel 19 in the vicinity of the vehicle interior floor. .
[0048]
The seat cross member 21 is mainly composed of an upper seat cross member 22 and a lower seat cross member 23.
[0049]
Among these, the upper seat cross member 22 has a front flange portion 22a to which the respective rear end edges 19a and 20a are connected, and a rear floor panel extending from the seat cross member 21 further toward the rear of the vehicle. The rear flange portion 22b to which the front end edge 24a of 24 is connected is provided integrally, and the front wall portion 22c has a substantially hat shape that is set slightly longer in the vertical direction than the rear wall portion 22d.
[0050]
Further, as shown in FIG. 3, the lower seat cross member 23 is in contact with and connected to the front wall portion 22c, the left and right front flange portions 23a, and the tunnel portion 20 as shown in FIG. The front flange portion 22a and the central front flange portion 23b, which are joined together by three sheets, are integrally provided.
[0051]
Further, the lower seat cross member 23 is integrally provided with a rear flange portion 23c which is joined to the front end edge 24a in a three-piece manner together with the rear flange portion 22b.
[0052]
As shown in FIG. 2, the lower seat cross member 23 has a substantially inverted hat-shaped cross section in which the rear vertical wall portion is formed slightly longer than the front vertical wall portion in the portion where the tunnel portion 20 is provided. As shown in FIG. 2, the front wall portion 22c and the front flange portion 22c are joined to the front flange portion 22c and the left and right front flange portions 23a are joined so as to exhibit an inverted W-shaped cross-sectional shape. A closed cross-section 25 formed by joining to the upper seat cross member 22 is continuously formed over substantially the entire region in the vehicle width direction.
[0053]
A pair of left and right inspection holes 26 are formed near the front edge of the rear floor panel 24. Among these, a woofer speaker 27 is mounted in the inspection hole 26 on the driver's seat side, and an inspection lid 28 is provided in the inspection hole 26 on the passenger seat side so as to be freely opened and closed. The lower floor panel 24 is configured to perform maintenance and the like on the lower side.
[0054]
On the upper surface portion 24b of the rear floor panel 24, a second cross member 29 is provided extending along the longitudinal direction over substantially the entire region in the vehicle width direction and spaced apart from the seat cross member 21 by a predetermined distance L1 rearward of the vehicle. ing.
[0055]
As shown in FIGS. 2 and 3, the second cross member 29 is integrally provided with front and rear connection flange portions 29d and 29e at the lower ends of the front and rear leg portions 29b and 29c, respectively, connected to the upper surface portion 24b. Thus, the cross section has a substantially hat shape, and the second closed cross section 125 is formed inside.
[0056]
A panel fixing surface portion 29a is provided so as to connect the upper ends of the front and rear leg portions 29b and 29c, and the rear end portion 30a of the upper floor panel 30 is placed on the panel fixing surface portion 29a. The bolt 31 and the nut 32 are used for fixing.
[0057]
The upper floor panel 30 is provided with a substantially flat plate-like horizontal surface portion 30c, and the front end portion is inclined downward toward the front of the vehicle, and the front side vertical portion 30d is connected to the seat cross member 21 at the lower end edge 30d. The wall part 30b is provided integrally.
[0058]
That is, the lower end edge 30d of the front side wall portion 30b is connected to the front wall portion 22c of the upper seat cross member 22 constituting the seat cross member 21, whereby the upper floor panel 30 is connected to the second cross member 29. As shown in FIGS. 2 and 3, a large closed cross-section 33 is formed across the entire region in the vehicle width direction between the rear floor panel 24 and the seat cross member 21. ing.
[0059]
In addition, floor panel openings 30e and 30e are formed in the front side wall portion 30b so as to communicate the space in the passenger compartment 2 and the space in the large closed section 33. Among them, a storage box member 36 is detachably mounted on the floor panel opening 30 on the passenger seat side as shown in FIG.
[0060]
Further, on the upper surface side of the horizontal plane portion 30c of the upper floor panel 30, an upper member 35 having a substantially hat-like cross section and forming a small closed cross section 34 with the upper floor panel 30 is provided in the vehicle width direction. It extends along.
[0061]
The upper member 35 has a front leg portion 35b as a front vertical wall portion extending from the front edge of the upper surface portion 35a, and a rear leg portion 35c extending downward from the rear edge. Before connecting to 30c, the rear connection flange portions 35d and 35e are integrally provided to have a substantially hat-shaped cross section.
[0062]
The front leg portion 35b of the upper member 35 is formed with large and small member openings 35f, 35f and 35g, 35g that allow the space in the small cross section 34 and the space in the passenger compartment 2 to communicate with each other.
[0063]
Among these, the middle speaker 37 is attached to the large member opening 35f on the driver's seat side, and the navigation controller main body 38 is attached to the large member opening 35f on the passenger seat side.
[0064]
Small speakers 39, 39 are mounted on the small member openings 35g, 35g, respectively.
[0065]
Furthermore, in the first embodiment, rear wheel house portions 40, 40 are integrally formed on the left and right side portions of the rear floor panel 24.
[0066]
The left and right rear wheel house portions 40, 40 are connected to the upper surface portions 40a, 40a of the rear wheel house portions 40, 40, spaced apart from the upper surface portion 24b of the rear floor panel 24 by a predetermined distance h1. A parcel member 41 is provided.
[0067]
The parcel member 41 is mainly composed of an upper parcel member member 42 and a lower parcel member member 43.
[0068]
Of these, the upper parcel member member 42 has front and rear vertical wall portions 44, 44 connected by an upper wall portion 45 so that the vehicle front-rear cross-sectional shape is a gate shape. The extending angle of the wall portions 44, 44 (in the direction of the dashed line in the figure) is made to coincide with the load input direction to the rear wheel house part (indicated by the two-dot chain line in the figure, the direction of the white arrow). Yes.
[0069]
The lower parcel member member 43 is provided with a plate-like horizontal plate portion 47.
[0070]
At the front and rear edges of the horizontal plate portion 47, there are weld flange portions 46 which are in contact with the front and rear vertical wall portions 44, 44 of the upper parcel member member 42 and joined by welding. , 46 are integrally provided, and, like the inner side walls 44a, 44a having a cross-sectional gate shape of the upper parcel member member 42, are extended toward the lower side of the vehicle, so that the inner side walls 44a, 44a Also has a substantially gate-like shape with a short vertical length.
[0071]
The lower opening of the upper parcel member member 42 is substantially closed by the horizontal plate portion 47 so that a closed cross section is formed inside.
[0072]
Next, the operation of the vehicle rear structure according to the first embodiment will be described.
[0073]
In the vehicle rear structure according to the first embodiment, the second cross member 29 is provided in the vehicle front-rear direction by providing the upper floor panel 30 between the second cross member 29 and the seat cross member 21. A large closed section 33 is formed between the seat cross member 21 and the seat cross member 21.
[0074]
Further, by providing the upper member 35, a small closed cross-section portion 34 is formed between the upper member 35 and the upper floor panel 30, and two large and small closed cross-section portions 33, 34 are vertically arranged. Will be formed.
[0075]
Therefore, the front floor panel 19 and the rear floor panel 24 acting in the vertical direction of the vehicle have high rigidity with respect to the load input in the bending direction, and also have high rigidity with respect to the load input acting from the side of the vehicle.
[0076]
The large closed cross section 33 is configured by using the rear floor panel 24, and the upper floor panel 30 constituting the small closed cross section 34 is shared by both the large and small closed cross sections 33 and 34. I can do it.
[0077]
For this reason, the vehicle body rigidity can be improved while the member efficiency is good and the increase in the vehicle body weight is suppressed.
[0078]
In addition, the floor panel opening 30e is formed on the front vertical wall 30b that is inclined downward from the front end of the horizontal plane 30c of the upper floor panel 30 toward the front of the vehicle and connects the lower end edge 30d to the seat cross member 21. Is formed.
[0079]
In the front vertical wall portion 30b, the lower end edge 30d is connected to the seat cross member 21, and the upper member 35 has two large and small closed cross-section portions 33 and 34 formed vertically. Therefore, even if the floor panel openings 30e, 30e are formed in a large area in a single plate-like front vertical wall 30b, sufficient vehicle body rigidity can be obtained.
[0080]
For this reason, since the welding operation of the said rear floor panel 24 etc. can be performed from the space inside the front passenger compartment 2 via this floor panel opening part 30e, workability | operativity can be made favorable.
[0081]
Further, when the space inside the large closed section 33 is used as a storage section, the stored items in the large closed section 33 are taken in and out from the space inside the passenger compartment 2 through the floor panel opening 30e. It is possible to use and is convenient.
[0082]
Moreover, since the floor panel opening 30e is formed in the front vertical wall 30b of the upper floor panel 30, the weight of the plate material constituting the front vertical wall 30b corresponding to the opening area becomes unnecessary. Further, the weight can be reduced.
[0083]
When the space inside the small closed cross section 34 is used as a storage section, the small closed cross section 34 is formed from the passenger space 2 internal space via the member opening 35f formed in the front leg 35b. In the stored items, for example, the first embodiment, the navigation controller main body 38 and the like can be taken in and out, and the convenience of use is good.
[0084]
Moreover, since these member openings 35f, 35g, etc. are formed in the front leg 35b of the upper member 35, the weight of the plate material of the front leg 35b corresponding to the opening area becomes unnecessary, and the weight can be further reduced. I can do it.
[0085]
These member openings 35f and 35g have a substantially hat-shaped cross section, and are formed in the front leg portion 35b of the upper member 35 having a relatively high rigidity that forms the small cross section 34 together with the upper floor panel 30. Therefore, the middle and small speakers 37, 39 such as car audios are inserted into the member openings 35f, 35g, and the periphery of these member openings 35f, 35g is used as a mounting portion. Small speakers 37 and 39 can be fixed.
[0086]
Thus, by attaching to the upper member 35 having relatively high rigidity, the middle and small speakers 37 and 39 are attached to the high rigidity portion, and a good acoustic effect can be obtained.
[0087]
Further, the parcel member 41 is provided so as to be spaced upward from the upper surface portion 24b of the rear floor panel 24 and connect the upper surface portions 40a, 40a of the left and right rear wheel house portions 40, 40. Therefore, the rigidity required for the load input such as the suspension applied to each rear wheel house portion 40 can be easily ensured.
[0088]
For example, a thrust load along the vehicle vertical direction acting on either the left or right rear wheel house 40 is transmitted to the rear wheel house 40 on the opposite side via the parcel member 41 to disperse the load. I can do it.
[0089]
Therefore, the absorption efficiency with respect to the load input is good, and the rigidity of the vehicle body can be improved while suppressing an increase in the weight of the vehicle body.
[0090]
Further, since the parcel member 41 is spaced upward from the upper surface portion 24b of the rear floor panel 24, a space between the parcel member 41 and the upper surface portion 24b of the rear floor panel 24 is used as a luggage space. Can do.
[0091]
For this reason, relatively large loads such as long objects can be stored in the luggage space 17.
[0092]
In addition, since the vertical wall portions 44, 44 of the upper parcel member member 42 are connected to the front and rear sides of the upper wall portion 45, the cross-sectional shape in the vehicle front-rear direction has a gate shape. The load input to the rear wheel house portion 40 is equally applied to the vertical wall portions 44 and 44.
[0093]
The extending angle of each of the vertical wall portions 44, 44 (in the direction of the dashed line in FIG. 5) is the same as the load input direction to the rear wheel house (indicated by the two-dot chain line in FIG. Therefore, deformation of the vertical wall portions 44, 44 in the in-plane direction is suppressed.
[0094]
For this reason, as shown by a two-dot chain line in FIG. 5, the amount of deformation such as the vertical wall portions 44 and 44 bulging outward is reduced, and the rear wheel house on the opposite side is reduced by the parcel member 41. The load can be transmitted to 40 effectively.
[0095]
For example, in the structure shown in FIG. 6 as a comparative example, a general upper member 141 and a lower member 143 are joined by joining flange portions 143a and 143a of the lower member 143 to form a substantially rhombic closed cross-section portion 145 on the inside. It has been known.
[0096]
In the structure shown in FIG. 6, the front member 141a of the upper member 141 is a single piece and has an inclination angle of a predetermined angle α.
[0097]
Therefore, as indicated by the white arrow in the figure, the input load is a component force Fh along the surface direction of the front wall portion 141a and a component force Fv perpendicular to the surface in the joint flange portion 143a. 6, the diamond-shaped upper member 141 and the lower member 143 are deformed so as to be crushed up and down.
[0098]
Therefore, such a general member structure having a generally rhombic cross section has a problem in that the load cannot be effectively transmitted to the rear wheel house 40 on the opposite side.
[0099]
On the other hand, in the parcel member 41 having the upper parcel member member 42 having the gate-shaped cross section of the first embodiment, the energy absorbed by the deformation is relatively small. The load is effectively transmitted to 40.
[0100]
Accordingly, the rigidity can be improved and the handling can be further improved.
[0101]
Furthermore, in the first embodiment, the lower parcel member member 43 causes the welding flange portions 46 and 46 to abut against the inner side walls 44 a and 44 a of the front and rear vertical wall portions 44 and 44 of the upper parcel member member 43. And welded.
[0102]
For this reason, the deformation in the in-plane direction in which the space between the vertical wall portions 44 of the upper parcel member member 42 expands is further suppressed.
[0103]
Further, the input load is configured to be applied to the lower parcel member member 43 as indicated by the white arrow in FIG. High rigidity can be obtained as compared with the case where the welding is performed in the shearing direction with respect to the welding direction with the upper parcel member member 42 and is applied in the peeling direction.
[0104]
Accordingly, the parcel member 41 can effectively transmit the input load from the suspension or the like to the rear wheel house portion 40 on the opposite side.
[0105]
As mentioned above, although the vehicle rear part structure of Embodiment 1 of this invention was explained in full detail with reference to drawings, the concrete structure is not restricted to these Embodiments 1, and the grade which does not deviate from the summary of this invention. These design changes are included in the present invention.
[0106]
For example, in the first embodiment, the back door is provided at the rear of the vehicle 16 and the luggage opening 18 is formed. However, the present invention is not limited to this. As long as the vehicle needs to improve the rigidity of the rear portion of the vehicle, such as a convertible vehicle 9 as shown in FIG. 9, the present invention may be applied to any shape vehicle.
[0107]
【The invention's effect】
As described above, according to the first aspect of the present invention, by providing the upper floor panel, a large closed cross section is formed between the second cross member and the seat cross member, and the upper side panel is formed. By providing the member, a small closed cross section is formed between the upper member and the upper floor panel, and two steps of closed cross sections are formed vertically.
[0108]
For this reason, it has high rigidity with respect to load input in the bending direction of the floor panel that acts in the vertical direction of the vehicle, and also has high rigidity with respect to load input that acts from the side of the vehicle.
[0109]
In addition, the large closed cross section is configured by using the rear floor panel, and the upper floor panel constituting the small closed cross section can be shared by both the large and small closed cross sections.
[0110]
For this reason, the vehicle body rigidity can be improved while the member efficiency is good and the increase in the vehicle body weight is suppressed.
[0111]
Moreover, since what was described in Claim 2 can perform the welding operation etc. of the said floor panel from the said vehicle interior space side via the said floor panel opening part, workability | operativity can be made favorable.
[0112]
Furthermore, when the space in the large closed cross section is used as a storage section, the stored items in the large closed cross section can be taken in and out from the vehicle interior space side through the floor panel opening. Good properties.
[0113]
In addition, since the opening of the floor panel is formed in the front side wall of the upper floor panel, the weight of the opening can be further reduced.
[0114]
According to the third aspect of the present invention, when the space in the small closed cross section is used as a storage section, the stored items in the small closed cross section are taken in and out from the vehicle interior space side through the member opening. Can be performed, and the convenience of use is good.
[0115]
Moreover, since the member opening is formed in the front vertical wall of the upper member, the weight can be further reduced by the opening area.
[0116]
  Further, since the member opening is formed in the front vertical wall of the upper member having relatively high rigidity, the car audio speaker can be mounted by using the periphery of the member opening. Will be attached to a highly rigid part, and a good acoustic effect will be obtained.It has a practically beneficial effect.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional perspective view of a rear part of a vehicle, illustrating a configuration of a main part in the vehicle rear part structure according to the first embodiment of the present invention.
2 is a cross-sectional view of the vehicle rear structure according to the first embodiment, taken along a line AA in FIG. 1. FIG.
3 is a cross-sectional view of the vehicle rear structure according to the first embodiment, taken along a line BB in FIG. 1. FIG.
4 is a perspective view showing a main configuration of the entire vehicle body to which the vehicle rear portion structure of the first embodiment is applied. FIG.
5 is a schematic diagram at a cross-sectional position along the vehicle front-rear direction illustrating the deformation of the parcel member in the vehicle rear structure according to the first embodiment. FIG.
FIG. 6 is a schematic view at a cross-sectional position for explaining a deformation of a general member member having a closed diamond shape and a generally rhombus shape showing a comparative example.
FIG. 7 is a perspective view of a rear portion of a sedan vehicle in the conventional vehicle rear structure.
FIG. 8 is a perspective view of a rear portion of a hatchback vehicle in the conventional vehicle rear structure.
FIG. 9 is a perspective view of a rear portion of a convertible vehicle having a conventional vehicle rear structure.
[Explanation of symbols]
2 Crew compartment (vehicle compartment)
16 vehicles
19 Front floor panel (floor)
21 Seat cross member
24 Rear floor panel
24b Upper surface part
29 Second cross member
30 Upper floor panel
30a rear end
30b Front vertical wall
30d bottom edge
30e Floor panel opening
30f Top side
33 Large closed section
34 Small closed section
35 Upper member
35b Front leg (front vertical wall)
35f, 35g large, small member opening (member opening)
40 Rear wheel house
41 Parcel members
42 Upper Purcell Member Member
43 Lower parcel member
44 Vertical wall
44a inner wall
45 Upper wall
46 Welding flange

Claims (3)

A vehicle rear structure in which a rear floor panel is extended toward the rear of the vehicle from a seat cross member extending along the vehicle width direction in the vehicle rear portion in the vicinity of the vehicle interior floor,
Provided on the upper surface of the rear floor panel is a second seat cross member that is separated from the seat cross member toward the rear of the vehicle and extends along the vehicle width direction, and between the second cross member and the seat cross member. An upper floor panel is provided between the rear floor panel and the rear floor panel so as to form a large closed cross section, and the upper floor panel has a substantially hat-shaped cross section on the upper surface side of the upper floor panel. A rear structure of a vehicle, wherein an upper member forming a small closed cross-section portion is extended along the vehicle width direction.   The front end portion of the upper floor panel is provided with a front vertical wall portion that is inclined downward toward the front of the vehicle and connects a lower end edge to the seat cross member. 2. A vehicle rear structure according to claim 1, wherein a floor panel opening that communicates with the space in the large closed section is formed. The vehicle rear portion structure according to claim 1 or 2, wherein a member opening portion that communicates the space in the small cross section and the vehicle interior space is formed in a front vertical wall portion of the upper member .

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