JP2023009231A - Vehicle side section structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress deviation in a vehicle vertical direction of side sills due to a vehicle width direction load, transmit a load to a side member or the like, and suppress intrusion amount of the side sills to the vehicle inside.

SOLUTION: A vehicle side section structure includes: a pair of right and left side members 2 which are provided on a lower surface of a floor panel 1; a pair of right and left side sills 3 which are provided at the vehicle outside of the side members 2; and an upper side cross member 4 on a floor, which is provided on an upper surface of the floor panel 1 and connects the side sills 3. Shock absorption members 5 are provided in the side sills 3. A vehicle outside end 1a of the floor panel 1 has a side sill side joining section 10. The side members 2 are adjacent to the side sills 3 in a vehicle width direction. A lower side cross member 6 under the floor, which extends in the vehicle width direction and connects the pair of the right and left side members 2 is provided on a lower side of the pair of right and left side members 2.

SELECTED DRAWING: Figure 2

COPYRIGHT: (C)2023,JPO&INPIT

Description

The present invention relates to a vehicle side structure.

2. Description of the Related Art Vehicles such as electric vehicles and ordinary vehicles are equipped with on-vehicle members such as battery packs and fuel tanks. Therefore, in a vehicle such as an electric vehicle, it is necessary to take measures to avoid damage to vehicle-mounted members due to an impact load, particularly in the event of a vehicle side collision.
Therefore, in some conventional vehicles, a shock absorbing member is additionally provided inside the side sill on the vehicle width direction outer side, and a side member is provided that is joined to the floor panel at a position on the vehicle inner side of the side sill. By providing a battery frame (cross member) that is joined to the panel via a collar and bracket, it is structured to prevent the battery frame that supports the battery pack, etc. from coming off the floor panel in the event of a side collision. There is (for example, see Patent Document 1).

JP 2013-60160 A

However, in the above-described conventional vehicle side structure, the side member and the bracket are joined to the floor panel located on the vehicle inner side of the side sill, so that a highly rigid portion exists on the vehicle inner side of the side sill. There is a risk that the side sill will be displaced in the vertical direction of the vehicle about the high-rigidity portion against the load in the width direction of the vehicle, resulting in insufficient load transmission and increasing the amount of penetration of the side sill into the inside of the vehicle.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and an object of the present invention is to suppress the displacement of the side sill in the vertical direction of the vehicle due to the load applied in the vehicle width direction in the event of a side collision, thereby providing a side member and a cross member on the floor. To provide a vehicle side structure capable of efficiently transmitting a load in the vehicle width direction to a side sill, improving the load absorption performance of the side sill in the vehicle width direction, and suppressing the intrusion amount of the side sill into the inside of the vehicle. .

In order to solve the above-described problems of the prior art, the present invention provides a pair of left and right side members extending in the vehicle front-rear direction, which are provided on the vehicle width direction side portions of the lower surface of the floor panel, and the vehicle width direction outer sides of the side members. a pair of left and right side sills extending in the longitudinal direction of the vehicle; and a cross member on the floor, extending in the width direction of the vehicle and connecting the pair of left and right side sills. In the vehicle side structure, a shock absorbing member is provided inside, and the vehicle outer end of the floor panel has a side sill side joint portion that is joined to the side sill, wherein the side member and the side sill are: An underfloor cross member that extends in the vehicle width direction and connects the pair of left and right side members is provided below the pair of left and right side members that are arranged adjacent to each other in the vehicle width direction.

In the vehicle side structure of the present invention, the side sill is supported by the side member by joining the side member and the side sill in a state where they are adjacent to each other. can be improved.

1 is a perspective view of a floor panel, a side sill, and an upper cross member on a floor in a vehicle side structure according to an embodiment of the present invention, viewed from above the vehicle; FIG. FIG. 2 is a cross-sectional view taken along the line AA in FIG. 1; FIG. 2 is a cross-sectional perspective view of the upper cross member on the side sill and floor in FIG. FIG. 2 is a perspective view of the floor panel in FIG. 1 as seen from below the vehicle;

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail based on the illustrated embodiments.
In the drawings, the direction of arrow Fr indicates the front of the vehicle, and the direction of arrow O indicates the outside in the width direction of the vehicle. The arrow X direction indicates the vehicle width direction, and the arrow Y direction indicates the vehicle front-rear direction.

1 to 4 show a vehicle side structure according to an embodiment of the invention. As shown in FIGS. 1 to 4, the vehicle side structure of the present embodiment is provided on the vehicle width direction side portion of the lower surface of the floor panel 1 that extends in the vehicle width direction and the vehicle front-rear direction, and extends in the vehicle front-rear direction. a pair of left and right side members 2; a pair of left and right side sills 3 provided outside the side members 2 in the vehicle width direction and extending in the vehicle front-rear direction; and an upper cross member 4 on the floor that connects the side sills 3 of the floor.
As shown in FIGS. 2 and 3, the side sill 3 of the present embodiment has a closed cross-sectional structure composed of a side sill inner panel 31 on the inner side of the vehicle and an outer side sill panel 32 on the outer side of the vehicle. The side sill outer panel 32 has openings facing each other, and has a hat-shaped cross section in which upper and lower ends 31a, 31b, 32a, 32b are joined at approximately the same position in the vehicle width direction. Inside the side sill 3, a shock absorbing member 5 is provided for absorbing a load in the vehicle width direction applied to the side sill outer panel 32 and the like. Moreover, the vehicle outer side end portion 1 a of the floor panel 1 has a side sill-side joint portion 10 that is joined to the side sill inner panel 31 of the side sill 3 . Since the vehicle outer side end portion 1a of the floor panel 1 and the side sill inner panel 31 are joined together, the floor panel 1 is notched at the joint portion with the upper cross member 4 on the floor. .

In the vehicle side structure of the present embodiment, as shown in FIGS. 2 and 3, the side member 2 and the side sill 3 are arranged adjacent to each other in the vehicle width direction, and the side member 2 and the side sill 3 are arranged at least. They are arranged at positions where some of them overlap when viewed from the side of the vehicle. The side member 2 in the vehicle side structure of the present embodiment is provided at a position lower than the height position of the side sill 3 in the vertical direction of the vehicle. Further, the side member 2 has a first joint portion W1 that is joined to the side surface of the side sill inner panel 31 of the side sill 3, and the first joint portion W1 corresponds to the impact absorbing member 5 as viewed from the side of the vehicle. It is placed in a position that overlaps with the inner upper part. That is, the side member 2 and the side sill 3 are joined via the first joint portion W1 while being adjacent to each other. Here, the first joint portion W1 is arranged along the vehicle front-rear direction in order to join the side member 2 and the side sill 3 together.
Therefore, the side sill 3 is structured to be supported by the side member 2 against the load from the outside in the vehicle width direction, and is configured so that the side sill 3 can absorb the load from the outside in the vehicle width direction. The first joint portion W1 may be arranged at a position above the vehicle outside end portion 1a of the floor panel 1. As shown in FIG.

As shown in FIGS. 1 to 3, the upper cross member 4 on the floor in this embodiment is formed in a hat-shaped cross section with an opening facing downward, and a flange portion 40 protruding in the vehicle front-rear direction is , the upper surface of the floor panel 1 and the side surface of the side sill inner panel 31 . The upper cross member 4 on the floor includes a main body portion 41 extending along the central surface 11 of the floor panel 1 on the inside of the vehicle, and an inclined portion 42 extending downward from the inside to the outside of the vehicle in the vehicle width direction. It has The inclined portion 42 has a second joint portion W2 joined to the side sill inner panel 31 of the side sill 3 at the vehicle width direction outer end portion 42a extending in the horizontal direction. 31 is located on the upper surface 31c.
As a result, the second joint portion W2 is joined to the side sill inner panel 31 from the upper side of the vehicle, and the first joint portion W1 is joined to the side sill inner panel 31 from the inner side in the vehicle width direction so that the joint portions intersect each other. Therefore, the structure is such that the movement of the side sill 3 due to the impact load from the outside in the vehicle width direction is suppressed. A seat bracket 43 is attached to the upper portion of the upper cross member 4 on the floor.

As shown in FIGS. 2 and 3, the side member 2 of the present embodiment has a planar lower surface 2a and inner and outer side walls positioned on the inner and outer sides of the lower surface 2a in the vehicle width direction and extending upwardly of the vehicle. 2b and 2c, and has a substantially U-shaped cross section. Inside the side member 2, a reinforcement 21 is provided which is joined to the inner wall 2b and the outer wall 2c of the side member 2 to connect the inner and outer walls 2b and 2c. Further, an upper closed cross-section portion S1 configured by combining with the floor panel 1 is provided on the upper side of the reinforcement 21, and the upper closed cross-section portion S1 is located inside the side sill 3 when viewed from the side of the vehicle. is arranged at a position overlapping with the impact absorbing member 5 of . With this arrangement, the upper closed cross-sectional portion S1 supports the impact absorbing member 5 against the load from the outside in the vehicle width direction, and the structure is such that the load absorbing performance is promoted.

On the other hand, in the vehicle side portion structure of the present embodiment, as shown in FIGS. 2 and 3, below the pair of left and right side members 2, there extends in the vehicle width direction and connects the pair of left and right side members 2. An underfloor lower cross member 6 is provided, and the underfloor lower cross member 6 is fixed to the side member 2 by a cylindrical fixing member 7 joined to a reinforcement 21 in the side member 2. It is That is, the side member 2 is supported by the lower cross member 6 below the floor via the reinforcement 21 and the fixing member 7 .
Therefore, the lower cross member 6 under the floor has a main body portion 61 with a closed cross section structure to which a vehicle-mounted member (to be described later) is fixed at a fixing portion D, and a flange portion 62 fixed to the side member 2 . The body portion 61 is positioned in the middle portion of the lower cross member 6 in the vehicle width direction, and has a pair of upper and lower member bodies 61a and 61b that are vertically spaced apart. The flange portion 62 is positioned at the outer end portion of the lower cross member 6 in the vehicle width direction, and is a pair of upper and lower member bodies 61a so as to close the opening end of the main body portion 61 on the outer side in the vehicle width direction when viewed from the rear of the vehicle. , 61b.
In addition, the inner peripheral surface of the fixing member 7 is formed with a female thread that engages with the male thread of the shaft portion of the fastening bolt 71 that fastens the side member 2 and the lower cross member 6 . An upper portion 7a of the fixing member 7 protrudes above the mounting surface 21a through the mounting hole 21d, and is joined to the reinforcement 21 with the intermediate portion 7c in contact with the lower surface of the mounting surface 21a. A lower portion 7 b of the fixing member 7 is joined onto the lower surface 2 a of the side member 2 .
Further, the reinforcement 21 is positioned above the lower surface 2a of the side member 2 and joined to the mounting surface 21a spaced from the lower surface 2a and the left and right side walls 2b and 2c of the side member 2. The mounting surface 21a is provided with a mounting hole 21d into which the upper portion of the fixing member 7 is inserted. The lower surface 2a of the side member 2 and the main body portion 61 and the flange portion 62 of the lower cross member 6 are provided with fasteners corresponding to the through holes 85 of the bracket member 8 and mounting holes 21d of the reinforcement 21, which will be described later. Insertion holes 2d, 61c, and 62a through which the shaft portions of the bolts 71 are inserted are provided.
As a result, when an external load is input to the reinforcement 21 in the side member 2, the external load is transmitted from the fixed member 7 to the lower cross member 6 under the floor. The structure is such that dispersion is facilitated.

In addition, in the vehicle side portion structure of this embodiment, the side member 2 and the flange portion 62 of the lower cross member 6 are fixed via the bracket member 8 as shown in FIGS. The combination of the bracket member 8 and the lower cross member 6 forms a lower closed cross-sectional portion S2 that enhances the rigidity around the fixing portion of the bracket member 8. As shown in FIG. The lower closed cross-sectional portion S2 is arranged at a position straddling the boundary region R between the body portion 61 and the flange portion 62 of the lower cross member 6 in the vehicle width direction. The position of the stress-concentrating portion of the portion fixed to the member 6 is deviated. Moreover, the bracket member 8 has a cross member side fixing portion 81 that is fixed to the main body portion 61 of the lower cross member 6 at a position on the inner side in the vehicle width direction.
The bracket member 8 of the present embodiment is formed in a rectangular shape when viewed from the top of the vehicle, and includes a side member side fixing portion 82 fixed to the lower surface 2a of the side member 2, and a vehicle width direction inner end of the side member side fixing portion 82. , to the cross member side fixing portion 81 and has an inclined surface 83 that is inclined downward toward the vehicle width direction inner side. The side member fixing portion 62 is provided with a through hole 85 through which the shaft portion of the fastening bolt 71 is inserted.
As a result, the load from the side member 2 is smoothly transmitted to the lower cross member 6 via the side member side fixing portion 82 and the inclined surface 83 of the bracket member 8, thereby suppressing local concentration of the load. ing.

Further, in the vehicle side portion structure of the present embodiment, the underfloor lower cross member 6 is positioned inward in the vehicle width direction at the boundary region R between the body portion 61 and the flange portion 62, as shown in FIGS. It has a curved portion 63 that curves toward. That is, the curved portion 63 is formed in a substantially horizontal S-shape that curves inward in the vehicle width direction from the flange portion 62 positioned above the lower cross member 6 toward the lower member body 61b of the main body portion 61 . A peripheral portion of the curved portion 63 is joined to the lower member body 61 b of the main body portion 61 . The curved portion 63 having such a shape reduces the change in cross-sectional area of the total closed cross-sectional portion including the closed cross-sectional portion S2 on the bracket member 8 side and the closed cross-sectional portion of the body portion 61 of the lower cross member 6, thereby reducing the total closed cross-sectional area change. A structure that maintains the area of the cross section is obtained.
Further, the curved portion 63 of the lower cross member 6 has rigidity against the load in the vertical direction of the vehicle. Therefore, the curved portion 63 is arranged at a position overlapping the inclined surface 83 of the bracket member 8 in the vehicle width direction. As a result, when the load concentrates on the portion where the curved portion 63 and the main body portion 61 are joined together and deformation occurs, the curved portion 63 is arranged within the range of the inclined surface 83 . The load is transmitted to the curved portion 63, and the load concentration on the curved portion 63 can be prevented.

Between the bracket member 8 and the flange portion 62 of the lower cross member 6 of this embodiment, as shown in FIGS. A cylindrical fixation aid 72 is provided. The fixing auxiliary member 72 can be arranged between the upper and lower sides of the side member side fixing portion 82 of the bracket member 8 and the upper member body 61a of the main body portion 61 of the lower cross member 6, and the upper and lower surfaces of the cylindrical body are the side members. It has a vertical length that allows contact with the side fixing portion 82 and the upper member body 61a. In addition, the fixing auxiliary member 72 has an inner diameter through which the fastening bolt 71 can be inserted. Moreover, the fixing member 7 and the fixing auxiliary member 72 are fastened by the fastening bolts 71 and have a structure that can utilize the rigidity of the fastening bolts 71 in the vehicle width direction. As a result, the load input from the side member 2 is transmitted to the lower cross member 6 via the auxiliary fixing member 72, further promoting the distribution of the load.

As shown in FIGS. 1 to 4, the floor panel 1 in the vehicle side structure of the present embodiment has a central surface 11 that bulges upward (toward the interior of the vehicle). is formed in a quadrangular shape on the inside of the passenger compartment when viewed from above the vehicle. In addition, the floor panel 1 of the present embodiment has an inclined surface 12 that inclines downward in the vehicle width direction from a center surface 11 on the inner side of the vehicle to the outer side of the vehicle. An in-vehicle member 100 such as a tank is mounted. On the other hand, on the inclined surface 12 of the floor panel 1, as shown in FIGS. The vehicle-inside end portion 9b of the floor reinforcing member 9 is joined to the floor panel 1 at a position (center surface 11) inside the vehicle relative to the inclined surface 12. there is Therefore, the floor reinforcing member 9 is arranged along the central surface 11 and the inclined surface 12 of the floor panel 1 while extending in the vehicle width direction.
That is, in the vehicle side structure of the present embodiment, when a load is applied to the side member 2 from the outside in the vehicle width direction, the floor reinforcing member 9 suppresses the deformation of the inclined surface 12 of the floor panel 1 toward the inside of the vehicle. , so that the load can be smoothly transmitted to the side members 2 .

On the other hand, as shown in FIGS. 2 and 3, the shock absorbing member 5 of the present embodiment has openings facing each other, and the upper and lower ends 51a, 51b, 52a, and 52b are joined at approximately the same positions in the vehicle width direction. The inner member 51 and the outer member 52 each having a hat-shaped cross section and the upper and lower middle portions 53a, 53b extending straight in the vertical direction of the vehicle are arranged between the upper and lower end portions 51a, 51b, 52a, 52b of the inner member 51 and the outer member 52. The central member 53 is sandwiched and joined with the upper and lower portions 53c and 53d sandwiched between the upper and lower end portions 31a and 31b of the side sill inner panel 31 and the upper and lower end portions 32a and 32b of the side sill outer panel 32. have.
Therefore, when a load in the vehicle width direction is input to the shock absorbing member 5 from the side sill outer panel 32 of the side sill 3, the inner member 51 and the outer member 52 are deformed almost uniformly toward the vehicle inner side due to the interposition of the central member 53. Therefore, the shock absorbing member 5 having high load absorbing performance is provided inside the side sill 3 .

As described above, in the vehicle side structure according to the embodiment of the present invention, the pair of left and right side members 2, which are provided on the vehicle width direction side portions of the lower surface of the floor panel 1 and extend in the vehicle front-rear direction, A pair of left and right side sills 3 provided outside in the width direction and extending in the longitudinal direction of the vehicle, and an upper floor cross member 4 provided on the upper surface of the floor panel 1 and extending in the width direction of the vehicle and connecting the pair of left and right side sills 3 . It has The side sill 3 is composed of a side sill inner panel 31 on the inner side of the vehicle and a side sill outer panel 32 on the outer side of the vehicle. 3 has a side sill side joint 10. The side member 2 and the side sill 3 are arranged adjacent to each other in the width direction of the vehicle, and the side member 2 is arranged so that at least a part of the side member 2 overlaps the side sill 3 when viewed from the side of the vehicle. Moreover, the side member 2 is joined to the side sill 3 and has a first joint portion W1 arranged along the vehicle front-rear direction. It is arranged in a position having a portion that overlaps with the inner upper portion.
Therefore, in the vehicle side structure of the present invention, the side member 2 and the side sill 3 are joined to each other so that they are adjacent to each other in the vehicle width direction, so that the side sill 3 on the vehicle outer side is supported by the side member 2 on the vehicle inner side. Since it becomes a structure, the load absorption performance from the vehicle width direction by the side sill 3 can be improved. In the vehicle side portion structure of the present invention, the first joint W1 of the side member 2 is positioned above the floor panel 1 in the vertical direction of the vehicle. is restrained from being displaced in the vertical direction of the vehicle with respect to the side member 2, the load is efficiently transmitted to the side member 2 and the upper cross member 4 on the floor, and the intrusion amount of the side sill 3 into the inside of the vehicle is reduced. can be done.

Further, in the vehicle side portion structure of the present embodiment, the upper cross member 4 on the floor includes an inclined portion 42 extending inclined downward from the vehicle inner side to the vehicle outer side in the vehicle width direction. It has a second joint portion W2 that is joined to the side sill inner panel 31 at the width direction outer end portion 42a.
Therefore, in the vehicle side structure of the present embodiment, the second joint W2 of the upper cross member 4 on the floor is joined to the upper surface 31c of the side sill inner panel 31 from the upper side of the vehicle, and the first joint W1 of the side member 2 is The side sill inner panel 31 is joined to the side surface of the side sill inner panel 31 from the inside in the vehicle width direction, and the two joining portions W1 and W2 are arranged at positions where they intersect each other. Therefore, the impact load absorption effect of the side sill 3 can be further improved.

In the vehicle side structure of the present embodiment, the side member 2 has an inner wall 2b and an outer wall 2c. A force 21 is provided. Above the reinforcement 21, an upper closed cross-section portion S1 configured by combining with the floor panel 1 is provided. It is
Therefore, according to the vehicle side portion structure of the present embodiment, the upper closed section portion S1 can support the shock absorbing member 5 against the load from the outside in the vehicle width direction, and the load absorbing performance of the shock absorbing member 5 is improved. can be further promoted.

Further, in the vehicle side structure of the present embodiment, a lower cross member 6 under the floor that extends in the vehicle width direction and connects the pair of left and right side members 2 is provided below the pair of left and right side members 2 . The lower cross member 6 under the floor is fixed to the side member 2 by a fixing member 7 joined to the reinforcement 21 .
Therefore, in the vehicle side structure of this embodiment, when an impact load at the time of a side collision is input to the reinforcement 21 in the side member 2, this impact load is transferred from the fixed member 7 to the lower cross member under the floor. 6, it is possible to promote the load transmission performance and enhance the load dispersion effect, and the side member 2 can be supported more firmly than the conventional vehicle side structure. .

In the vehicle side structure of the present embodiment, the floor panel 1 has an inclined surface 12 that inclines downward from the vehicle inner side to the vehicle outer side in the vehicle width direction. is installed. On the other hand, the vehicle outer side end portion 9a of the floor reinforcing member 9 having the side member side joint portion 91 joined to the side member 2 is joined to the inclined surface 12 of the floor panel 1, and the vehicle inner side end portion of the floor reinforcing member 9 is joined. 9b is joined to the floor panel 1 at a position on the inner side of the vehicle relative to the inclined surface 12. As shown in FIG.
Therefore, in the vehicle side structure of the present embodiment, when a load is applied to the side members 2 in the vehicle width direction, the floor reinforcing member 9 suppresses the deformation of the inclined surface 12 of the floor panel 1 toward the vehicle inner side. Therefore, the load from the vehicle width direction is easily transmitted to the side member 2, and the load transmission in the vehicle width direction can be promoted.

In addition, in the vehicle side structure of the present embodiment, the shock absorbing member 5 is arranged such that the openings face each other, and the upper and lower ends 51a, 51b, 52a, 52b are joined at approximately the same positions in the vehicle width direction. Mold-shaped inner member 51 and outer member 52, and upper and lower intermediate portions 53a, 53b extending straight in the vertical direction of the vehicle are sandwiched between upper and lower end portions 51a, 51b, 52a, 52b of the inner member 51 and outer member 52. In addition, the upper and lower portions 53c and 53d of the side sill inner panel 31 and the side sill outer panel 32 have a central member 53 that is joined to them while being sandwiched between them.
Therefore, according to the vehicle side portion structure of the present embodiment, when a load in the vehicle width direction is input to the shock absorbing member 5 from the side sill outer panel 32 of the side sill 3, the inner member 51 and the outer member 52 with the central member 53 interposed therebetween can be deformed almost uniformly toward the inside of the vehicle, and the load absorbing performance of the impact absorbing member 5 can be further enhanced.

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

REFERENCE SIGNS LIST 1 floor panel 1a outer edge of vehicle 2 side member 2a lower surface 2b inner wall 2c outer wall 2d insertion hole 3 side sill 4 upper cross member above floor 5 impact absorbing member 6 lower cross member below floor 7 fixing member 7a upper portion 7b lower portion 7c Intermediate portion 8 Bracket member 9 Floor reinforcing member 9a Outer end of vehicle 9b Inner end of vehicle 10 Side sill side joint 12 Inclined surface of floor panel 21 Reinforcement 21a Mounting surface 21b, 21c Side surface 21d Mounting hole 31 Side sill inner panel 31a Upper end portion 31b Lower end portion 31c Upper surface 32 Side sill outer panel 32a Upper end portion 32b Lower end portion 40 Flange portion of upper cross member on floor 41 Body portion of upper cross member on floor 42 Inclined portion of upper cross member on floor 42a Vehicle width direction Outer end 51 Inner member of shock absorbing member 51a Upper end 51b Lower end 52 Outer member of shock absorbing member 52a Upper end 52b Lower end 53 Central member 53a Upper intermediate portion 53b Lower intermediate portion 53c Upper portion 53d Lower portion 61 Under the floor Body portion of cross member 61c Insertion hole 62 Flange portion of lower cross member under the floor 62a Insertion hole 63 Curved portion 71 Fastening bolt 85 Through hole of bracket member 91 Joint portion of floor reinforcing member on side member side 100 In-vehicle member S1 Upper closing Cross section W1 First joint W2 Second joint

Claims (6)

a pair of left and right side members provided on the vehicle width direction side portions of the lower surface of the floor panel and extending in the vehicle front-rear direction;
a pair of left and right side sills provided outside the side member in the vehicle width direction and extending in the vehicle front-rear direction;
a cross member on the floor that is provided on the upper surface of the floor panel and extends in the vehicle width direction to connect the pair of left and right side sills;
A shock absorbing member is provided inside the side sill,
In the vehicle side structure, the vehicle outer side end portion of the floor panel has a side sill side joint portion that is joined to the side sill,
The side member and the side sill are arranged adjacent to each other in the vehicle width direction,
A vehicle side structure, wherein an underfloor cross member that extends in the vehicle width direction and connects the pair of left and right side members is provided below the pair of left and right side members. The side member has an inner wall and an outer wall, and a reinforcement joined to the inner wall and the outer wall is provided inside the side member,
2. The vehicle side structure according to claim 1, wherein the underfloor cross member is fixed to the side member by a fixing member joined to the reinforcement. An upper closed cross-section formed by being combined with the floor panel is provided on the upper side of the reinforcement, and the upper closed cross-section is arranged at a position overlapping the shock absorbing member when viewed from the side of the vehicle. 3. The vehicle side structure according to claim 2, wherein: The side member has a first joint portion that is joined to the side sill, and the first joint portion is arranged at a position overlapping an upper portion of the impact absorbing member on the inner side of the vehicle when viewed from the side of the vehicle,
The cross member on the floor includes an inclined portion that extends inclined downward from the vehicle inner side to the vehicle outer side in the vehicle width direction. 2. The vehicle side structure according to claim 1, further comprising a joint portion, the second joint portion being located on the upper surface of the side sill. The floor panel has an inclined surface that inclines downward from the vehicle inner side to the vehicle outer side in the vehicle width direction, and an in-vehicle member is mounted below the inclined surface,
A vehicle outer side end portion of a floor reinforcing member having a side member side joint portion that is joined to the side member is joined to the inclined surface of the floor panel, and a vehicle inner side end portion of the floor reinforcing member is connected to the inclined surface. 2. The vehicle side structure according to claim 1, wherein the vehicle side structure is joined to the floor panel at a position on the inner side of the vehicle. The side sill is composed of a side sill inner panel on the inner side of the vehicle and a side sill outer panel on the outer side of the vehicle,
The shock absorbing member includes an inner member and an outer member having a hat-shaped cross-section whose openings are arranged to face each other and whose upper and lower ends are joined at approximately the same position in the vehicle width direction, and an inner member and an outer member that extend straight in the vehicle vertical direction and extend vertically in the middle of the vehicle. a central member sandwiched between the upper and lower ends of the inner member and the outer member, and joined with the upper and lower portions sandwiched between the inner side sill panel and the outer side sill panel; 2. The vehicle side structure according to claim 1, wherein:

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