JP5830452B2 - Car body rear structure - Google Patents

Description

  The present invention relates to a rear body structure of an automobile.

  Various types of structures have been proposed and put into practical use for the structure of the rear part of an automobile body (see, for example, Patent Documents 1 and 2). Hereinafter, an example of a rear structure of a vehicle body and its drawbacks will be described in detail with reference to the drawings.

FIG. 1 is a side view showing an example of an automobile, and FIG. 6 is an enlarged sectional view taken along line AA in FIG. 1 showing a rear structure of a conventional automobile. The arrow Fr in these and other figures indicates the forward direction of the automobile, the arrow W indicates the vehicle width direction of the automobile, and the terms “front” or “rear” in this specification are It means before and after based on the forward direction. Moreover, the code | symbol I in FIG. 6 has shown the inside of the motor vehicle, and the code | symbol O has shown the vehicle exterior (the same also in FIG.2, FIG.5 and FIG.9). The vehicle body 1 shown in FIGS. 1 and 6 is configured so that the left side portion and the right side portion in the vehicle width direction are bilaterally symmetrical. Therefore, in the following description, only the configuration of the right side vehicle body portion is mainly used. To clarify. The same applies to the description of the embodiment of the present invention described later.

  A vehicle body 1 shown in FIGS. 1 and 6 includes a roof panel 2 that forms an upper portion of the vehicle body 1 and a floor panel 3 that forms a floor surface of a passenger compartment. It has the quarter panel 4 which comprises the outer plate | board of a vehicle width direction side part. As shown in FIG. 6, the upper portion of the quarter panel 4 is fixed to the outer end portion of the roof panel 2 in the vehicle width direction by spot welding.

  The crosses in the figure schematically represent the dents of spot welding, and in FIG. 1, in order to clearly show the quarter panel 4, the quarter panel 4 is hatched. It does not represent.

  FIG. 7 is a perspective view of the rear portion of the conventional vehicle body 1 as seen from the outside of the vehicle, and FIG. 8 is a perspective view of the rear portion of the vehicle body 1 as seen from the inside of the vehicle. The panel, floor panel, and quarter panel are not shown.

  As shown in FIGS. 6 to 8, the vehicle body 1 further has a wheel house 6 for the rear wheel 5 shown in FIG. 1. The wheel house 6 is composed of a wheel house outer panel 7 and a wheel house outer panel 7. The wheel house inner panel 8 is located on the inner side in the vehicle width direction, the wheel house outer panel 7 and the upper part of the wheel house inner panel 8 are overlapped with each other, and the overlapping portion 9 is fixed integrally by spot welding. . In this way, the wheel house inner panel 8 is integrally fixed to the wheel house outer panel 7. The rear wheel 5 shown in FIG. 1 is accommodated in the wheel house 6 constructed in this manner, as is known per se. Further, as shown in FIG. 6, the above-mentioned floor panel 3 has its outer end in the vehicle width direction fixed integrally to the wheel house inner panel 8 by spot welding, and the lower part of the above-mentioned quarter panel 4 is the wheel. It is fixed to the house outer panel 7 by spot welding.

  7 and 8, the wheel house outer panel 7 is hatched for easy understanding, and the wheel house inner panel 8 is also hatched in a direction opposite to the hatching attached to the wheel house outer panel 7. Although hatched, these hatches are not naturally shown in cross section (the same applies to FIGS. 3 and 4).

  Further, as shown in FIGS. 6 to 8, the vehicle body 1 includes a roof side panel 10 that is located on the inner side in the vehicle width direction than the quarter panel 4. As shown in FIG. 6, the roof side panel 10 is positioned with a gap to the quarter panel 4 and is fixed to the quarter panel 4 by spot welding. Further, the upper part of the roof side panel 10 is fixed to the outer end of the roof panel 2 in the vehicle width direction together with the upper part of the quarter panel 4 by spot welding. In addition, the lower portion 11 of the roof side panel 10 is fixed to and integrated with the upper portion of the aforementioned wheel house outer panel 7 by spot welding.

  The front pillar portion 12 of the roof side panel 10 shown in FIGS. 7 and 8 and the front pillar portion 13 of the quarter panel 4 shown in FIG. 1 are fixed to each other by spot welding, so that the C pillar of the vehicle body 1 is secured. 14 and the rear pillar portion 15 of the roof side panel 10 shown in FIGS. 7 and 8 and the rear pillar portion 16 of the quarter panel 4 shown in FIG. 1 are fixed to each other by spot welding. Thus, the D pillar 17 of the vehicle body 1 is configured.

  As shown in FIG. 6, a notch 18 is formed in an intermediate portion in the front-rear direction of the upper portion of the wheel house inner panel 8, and the notch 18 is covered with a wheel house gusset 19. The wheel house gusset 19 has a damper mounting portion 20 (see also FIG. 8) to which a damper upper portion of a rear suspension (not shown) is mounted. In the illustrated example, as shown in FIG. 6, a mounting hole 21 is formed in the wheel house gusset 19, and a dish-like member 22 having a hole aligned with the mounting hole 21 is fixed to the wheel house gusset 19 by welding. The damper mounting portion 20 is configured by the mounting hole 21 and the hole of the dish-like member 22.

  As described above, the wheel house gusset 19 having the damper mounting portion 20 is located on the inner side in the vehicle width direction with respect to the roof side panel 10 as shown in FIGS. Are fixed to the lower part 11 of the roof side panel 10 and the wheel house inner panel 8 by spot welding. In the example shown in FIG. 8, the wheel house gusset 19 is also fixed to the wheel house outer panel 7 by spot welding. The wheel house gusset 19 has a plate thickness larger than the plate thickness of the roof side panel 10 and the wheel house inner panel 8, and firmly and securely connects the wheel house inner panel 8 and the roof side panel 10.

  9 is an enlarged sectional view taken along the line IX-IX in FIG. 6. As shown in FIG. 6, FIG. 6 and FIG. 7, the outer side surface of the roof side panel 10 and the outer side surface of the wheel house outer panel 7 are shown. Is provided with a roof side reinforcing panel 23 having a substantially U-shaped cross-sectional shape. The roof side reinforcing panel 23 is fixed to the roof side panel 10 and the wheel house outer panel 7 by spot welding at the peripheral flange portion. The roof side reinforcing panel 23 is located opposite to the wheel house gusset 19 described above, extends long in the vertical direction, and reaches the vicinity of the roof panel 2. The roof side reinforcing panel 23 and the roof side panel 10 constitute a skeleton having a closed cross section in which a space S is partitioned.

  Each panel 2, 3, 4, 7, 8, 10, 19, 23 which comprises the vehicle body 1 mentioned above consists of a molded product formed by press-molding a steel plate.

  Here, when the vehicle travels, a large external force is applied to the damper mounting portion 20 of the wheel house gusset 19 from the damper of the rear suspension described above. FIGS. 10A and 10B are schematic cross-sectional views of the vehicle body 1 of the conventional automobile described above. Each panel of the vehicle body 1 shown here has the reference numerals shown in FIGS. Is attached.

  As shown in FIG. 10 (a), when external forces in opposite directions indicated by arrows F and FA are respectively applied to the left and right damper mounting portions 20 and 20A from the dampers, the forces are applied to the entire vehicle body 1. Accordingly, the vehicle body 1 is torsionally deformed as shown in FIG. At that time, the external force from the damper is exerted on the wheel house gusset 19, but the wheel house gusset 19 has a large plate thickness and high rigidity, so even if a large load is applied to the wheel house gusset 19, 19 is not greatly deformed. Moreover, the force applied to the wheel house gusset 19 is transmitted to the roof side panel 10, and a roof side reinforcing panel 23 is fixed to the roof side panel 10, and the roof side reinforcing panel 23 and the roof side panel 10 are fixed. Thus, a rigid skeleton having a hollow inside is formed, so that deformation of the roof side panel 10 can be suppressed. Further, since the force transmitted to the roof side panel 10 is transmitted to the upper portion of the vehicle body 1 through the corners (ridge lines) 31 (FIGS. 7 and 9) of the roof side reinforcing panel 23 extending vertically, the force is transmitted to the vehicle body 1. The deformation of the vehicle body 1 is suppressed.

  As described above, the load from the damper of the rear suspension is input to the wheel house gusset 19 having a large rigidity, and is then reinforced by the roof side reinforcing panel 23 and transmitted to the roof side panel 10 having an increased rigidity. Large torsional deformation can be prevented. Thus, the conventional vehicle body 1 is also configured to increase its torsional rigidity. However, the conventional vehicle body rear structure has a large and heavy roof side reinforcement in addition to the wheel house gusset 19. Since the panel 23 is required, the weight of the entire vehicle body 1 is increased, and the disadvantage of increasing the cost is inevitable.

JP 11-348826 A JP 2006-62443 A

  The object of the present invention is to provide a vehicle body rear structure that can keep the torsional rigidity of the vehicle body high without a roof side reinforcement panel and can reduce the weight and cost of the vehicle body by omitting the roof side reinforcement panel. There is to do.

In order to achieve the above object, the present invention provides a roof panel that forms the upper part of a vehicle body, a wheel house outer panel, and a wheel house that is located on the inner side in the vehicle width direction than the wheel house outer panel and is fixed to the wheel house outer panel. A wheel house for the rear wheel made of an inner panel and an outer plate on the side in the vehicle width direction at the rear part of the vehicle body, and an upper part fixed to the outer end part in the vehicle width direction of the roof panel and a lower part in the wheel house A quarter panel fixed to the outer panel, a floor panel constituting the floor of the passenger compartment, and having an outer end in the vehicle width direction fixed to the wheel house inner panel, and an inner side in the vehicle width direction than the quarter panel And is fixed to the quarter panel, and the upper part is fixed to the outer end of the roof panel in the vehicle width direction. A roof side panel whose lower part is integrated with the wheel house outer panel, and a damper mounting part to which a damper upper part of the rear suspension is mounted, and located on the inner side in the vehicle width direction than the roof side panel. And a wheel house gusset fixed to the roof side panel and the wheel house inner panel, and having a plate thickness larger than the plate thickness of the roof side panel and the wheel house inner panel. The side panel is recessed outward in the vehicle width direction when viewed from the inside of the vehicle and is formed with a concave portion extending in the vertical direction, and the wheel house gusset is fixed to the inner surface of the bottom wall of the concave portion , The wheel house gusset includes a gusset recess extending continuously from a recess formed in the roof side panel. Suggest rear vehicle body structure which There are formed (claim 1).

  2. The vehicle body rear structure according to claim 1, wherein a wheel house gusset portion located in a recess formed in the roof side panel has a seat belt retractor for a passenger seat belt device seated on a rear seat. It is advantageous if the concave portion formed in the roof side panel is used as a storage space for the seat belt retractor (claim 2).

Furthermore, in order to achieve the above object , the present invention is located on the inner side in the vehicle width direction of the roof panel constituting the upper part of the vehicle body, the wheel house outer panel, and the wheel house outer panel, and is fixed to the wheel house outer panel. The wheel house for the rear wheel comprising the wheel house inner panel, and the outer plate of the vehicle width direction side portion at the rear part of the vehicle body, the upper part is fixed to the outer end part in the vehicle width direction of the roof panel, and the lower part is the aforementioned A quarter panel fixed to the wheel house outer panel, a floor panel constituting the floor surface of the passenger compartment, and having an outer end in the vehicle width direction fixed to the wheel house inner panel, and a vehicle width wider than the quarter panel. Is located on the inner side in the direction and is fixed to the quarter panel, and the upper part is the outer end in the vehicle width direction of the roof panel. A roof side panel fixed to the wheel house outer panel and a damper mounting portion to which a damper upper part of the rear suspension is mounted. And a wheel house gusset that is fixed to the roof side panel and the wheel house inner panel, and has a plate thickness larger than the plate thickness of the roof side panel and the wheel house inner panel, The roof side panel is formed with a concave portion that is recessed outward in the vehicle width direction when viewed from the inside of the vehicle and extends in the vertical direction, and the wheel house gusset is fixed to the inner surface of the bottom wall of the concave portion. The wheel house gusset portion located in the recess formed in the roof side panel is An automobile body configured as a retractor fixing portion for fixing a seat belt retractor of a seat belt device for an occupant seated on a seat, and a recess formed in a roof side panel is used as a storage space for the seat belt retractor A rear structure is proposed (claim 3).

  Also in the rear structure of the vehicle body according to the present invention, the roof side panel and the wheel house inner panel are firmly connected by the wheel house gusset having a large plate thickness and thus high rigidity and strength. Load is input to the rigid wheelhouse gusset. This effectively suppresses the torsional deformation of the vehicle body. In addition, the force transmitted to the wheel house gusset is transmitted to the roof side panel, and is transmitted to the upper part of the vehicle body through the corners (ridges) of the recesses formed in the roof side panel extending in the vertical direction. Dispersed over the entire vehicle body, thereby suppressing torsional deformation of the entire vehicle body.

  Further, the recess formed in the roof side panel increases the rigidity of the roof side panel, and the bottom wall of the recess protrudes outward in the vehicle width direction, so that the torsional rigidity of the vehicle body is further increased. Furthermore, when the load from the rear suspension is transmitted to the roof side panel via the wheel house gusset, a large stress is generated on the bottom wall of the concave portion of the roof side panel located outside the vehicle width direction of the vehicle body. Since the wheel house gusset with high rigidity is fixed to the surface of the bottom wall of the recess, the wheel house gusset acts to press the bottom wall of the recess, and this greatly deforms the bottom wall of the recess. Can be prevented. In this way, the torsional rigidity of the vehicle body can be kept high even when the roof side reinforcing panel, which was an essential component in the past, is not provided, and when a large load is applied to the vehicle body from the rear suspension. However, the vehicle body can be prevented from being greatly twisted and deformed. The roof side reinforcing panel can be omitted while keeping the torsional rigidity of the vehicle body high, and the weight and cost of the vehicle body can be reduced.

It is a side view which shows an example of a motor vehicle, Comprising: It is a figure where it used for description of a prior art and description of embodiment which concerns on this invention. FIG. 2 is an enlarged cross-sectional view of the automobile body shown in FIG. 1 cut along the line AA, showing a vehicle body rear structure according to an embodiment of the present invention, with a seat belt retractor added thereto, And it is the figure which added and showed a part of interior material with the dashed-two dotted line. FIG. 3 is a perspective view of the rear structure of the vehicle body shown in FIG. 2 as viewed from the outside of the vehicle, and is a view in which illustration of a roof panel, a quarter panel, and a floor panel constituting the vehicle body is omitted for easy understanding of the drawing. FIG. 4 is a perspective view of the rear structure of the vehicle body shown in FIG. 2 as viewed from the inside of the vehicle, and is a view in which illustration of a roof panel, a quarter panel, and a floor panel constituting the vehicle body is omitted as in FIG. 3. It is the VV line expanded sectional view of FIG. It is sectional drawing similar to FIG. 2 cut | disconnected along the AA of FIG. 1, Comprising: It is a figure which shows the conventional vehicle body rear part structure. FIG. 3 is a perspective view of a conventional rear structure of a vehicle body as viewed from the outside of the vehicle, and is a view in which a roof panel, a quarter panel, and a floor panel constituting the vehicle body are omitted as in FIG. 2 and a seat belt retractor is added. It is. It is the perspective view which looked at the conventional vehicle body rear part structure from the vehicle inside, Comprising: Like FIG. 7, it is the figure which abbreviate | omitted illustration of the roof panel, quarter panel, and floor panel which comprise a vehicle body. It is the IX-IX line expanded sectional view of FIG. It is a schematic explanatory sectional view showing that the vehicle body is torsionally deformed when a load is applied to the vehicle body from the rear suspension.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  The appearance of the automobile having the vehicle body rear structure according to the present embodiment is the same as that shown in FIG. 1 used when the prior art is described. Therefore, FIG. 1 will be referred to also in the description of this embodiment.

The basic structure of the vehicle body rear structure according to the present invention shown in FIGS. 1 to 4 is substantially the same as the conventional vehicle body rear structure described above with reference to FIGS. That is, as shown in FIGS. 1 and 2, the vehicle body rear structure of this example also includes a roof panel 2 that forms the upper part of the vehicle body 1 and a quarter panel that forms the outer plate of the rear part of the vehicle body 1 in the vehicle width direction. 4. The upper portion of the quarter panel 4 is fixed to the outer end portion of the roof panel 2 in the vehicle width direction by spot welding.

Further, as shown in FIGS. 2 to 4, the vehicle body rear structure of the present example has a wheel house 6 for the rear wheel 5 (FIG. 1). The wheel house 6 includes a wheel house outer panel 7 and its wheel. The wheel house inner panel 8 is located on the inner side in the vehicle width direction with respect to the house outer panel 7. Also in this case, the wheel house inner panel 8 is fixed to the wheel house outer panel 7 by spot welding in an overlapping portion 9 (FIG. 4) with the wheel house outer panel 7. The lower part of the quarter panel 4 is fixed to the wheel house outer panel 7 by spot welding.

  Further, as shown in FIG. 2, the vehicle body rear structure of the present example also has a floor panel 3 that constitutes the floor of the passenger compartment. The floor panel 3 has a wheel house inner panel at its outer end in the vehicle width direction. 8 is fixed by spot welding.

  Further, the rear structure of the vehicle body of the present example has a roof side panel 10 located on the inner side in the vehicle width direction with respect to the quarter panel 4 described above, and the roof side panel 10 is fixed to the quarter panel 4 by spot welding. ing. Moreover, the upper part of the roof side panel 10 is fixed to the outer end of the roof panel 2 in the vehicle width direction by spot welding together with the upper part of the quarter panel 4.

  Further, the lower portion of the roof side panel 10 is integrated with the wheel house outer panel 7, but in the vehicle body rear structure of this example, the roof side panel 10 and the wheel house outer panel 7 are fixed by spot welding. Instead, the roof side panel 10 and the wheel house outer panel 7 are formed as a single integrated panel. The roof side panel 10 and the wheel house outer panel 7 are formed as a single molded product by press-molding a single material panel integrally. As a result, the overall rigidity of the roof side panel 10 and the wheel house outer panel 7 can be further increased. However, this is not an essential configuration of the present invention, and the roof side panel 10 and the wheel house outer panel 7 are the same as in the prior art. The roof side panel 10 and the wheel house outer panel 7 can be integrated by molding the two separately and fixing the two molded products by spot welding.

  The vehicle body rear structure of the present example also has a wheel house gusset 19 disposed so as to cover a notch 18 formed in the upper portion of the wheel house inner panel 8 as shown in FIGS. 2 and 4. The house gusset 19 is located on the inner side in the vehicle width direction with respect to the roof side panel 10 as in the prior art, and the peripheral flange portion is fixed to the roof side panel 10 and the wheel house inner panel 8 by spot welding. Yes.

  As described above, when the roof side panel 10 and the wheel house outer panel 7 are formed as separate members and are integrally fixed by spot welding, the wheel house gusset 19 is attached to the spot house gusset 19 as in the prior art. By welding, the roof side panel 10 and the wheel house inner panel 8 can be fixed to each other, and the wheel house gusset 19 can also be fixed to the wheel house outer panel 7.

  Further, the wheel house gusset 19 has a damper mounting portion 20 configured exactly the same as a conventional wheel house gusset, a mounting hole 21 formed in the wheel house gusset 19, and a dish-like member fixed to the gusset 19. An upper portion of a damper of a rear suspension (not shown) is attached to a hole formed in 22. Further, the wheel house gusset 19 of this example also has a plate thickness larger than the plate thickness of the roof side panel 10 and the wheel house inner panel 8.

  The other basic configuration of the vehicle body rear structure of this example is also the same as that of the conventional vehicle body rear structure described above with reference to FIGS. Parts in FIG. 2 to FIG. 4 that are not different from the conventional ones are denoted by the same reference numerals as those in FIG. 6 to FIG. Further, each of the panels 2, 3, 4, 7, 8, 10, and 19 constituting the original vehicle body 1 is also formed of a molded product obtained by press-molding a steel plate, for example.

  The vehicle body rear structure of this example is essentially different from the conventional vehicle body rear structure. First, as is apparent from FIGS. 2 and 3, the roof side reinforcing panel 23 (FIG. 2), instead, the roof side panel 10 is recessed outward in the vehicle width direction when viewed from the vehicle interior, and extends in the vertical direction, as shown in FIGS. As shown in FIGS. 2, 4, and 5, the upper portion of the wheel house gusset 19 is formed with a large thickness on the inner surface of the bottom wall 25 of the recess 24. Is fixed by spot welding.

  When the automobile travels, a load from a rear suspension damper (not shown) is applied to the wheel house gusset 19 as in the case of the conventional rear structure of the vehicle body. At this time, since the wheel house gusset 19 has a large plate thickness and high rigidity, even if a large load is applied to the wheel house gusset 19, the wheel house gusset 19 is not greatly deformed. This suppresses the torsional deformation of the entire vehicle body. Further, when the force applied to the wheel house gusset 19 is transmitted to the roof side panel 10, the force is applied to the corners (ridge lines) 32 of the recess 24 formed in the roof side panel 10 extending in the vertical direction (FIG. 3). 4), the force is transmitted to the upper portion of the vehicle body 1, and the force is transmitted to the upper portion of the vehicle body. Therefore, even if the conventional roof side reinforcing panel 23 shown in FIG. 7 is not provided, the force is transmitted to the roof side panel 10. The applied force can be dispersed throughout the vehicle body 1, thereby suppressing torsional deformation of the entire vehicle body.

  Further, the recess 24 formed in the roof side panel 10 enhances the rigidity of the roof side panel 10, and the bottom wall 25 of the recess 24 occupies a position protruding outward in the vehicle width direction. The torsional rigidity of the entire vehicle body is further increased. In general, the more the panel constituting the vehicle body is located farther outward in the vehicle width direction from the vehicle width direction center of the vehicle body (in FIG. 10, this center is indicated by reference sign CL). The torsional rigidity of the vehicle body is increased. Since the bottom wall 25 of the recess 24 of the roof side panel 10 of this example is located far away from the vehicle width direction center of the vehicle body 1 outward in the vehicle width direction, the overall torsional rigidity of the vehicle body 1 is further enhanced. It is.

  On the other hand, when an external force is applied to the vehicle body from the damper of the rear suspension, a large stress is generally generated in the panel located far away from the vehicle width direction center of the vehicle body in the vehicle width direction outward. For this reason, a large stress is generated on the bottom wall 25 of the recess 24 of the roof side panel 10. However, since the upper part of the wheel house gusset 19 having high rigidity is firmly fixed to the bottom wall 25 of the recess 24, the wheel house gusset 19 functions to strongly press the bottom wall 25 of the recess 24. For this reason, even if a large stress is generated on the bottom wall 25, the bottom wall 25 can be prevented from being greatly deformed.

  As described above, the vehicle body 1 of this example is not provided with the roof side reinforcing panel, which is an essential component of the conventional vehicle body rear structure, but the torsional rigidity of the vehicle body 1 is kept high, and the rear Even if a large load is applied to the vehicle body 1 from the suspension, the vehicle body 1 is not greatly twisted and deformed. While keeping the torsional rigidity of the vehicle body 1 high, the roof side reinforcing panel, which has been conventionally required, can be omitted, thereby reducing the weight of the vehicle body and its cost.

  Further, in the vehicle body rear structure of this example, as shown in FIGS. 2, 4 and 5, the wheel house gusset 19 has a gusset groove 26 extending continuously from the recess 24 formed in the roof side panel 10. Is formed. For this reason, the force applied to the wheel house gusset 19 from the damper of the rear suspension is transmitted to the corner portion 32 of the recess portion 24 of the roof side panel 10 through the corner portion 33 of the gusset recess groove 26, and through the corner portion 32. It is transmitted to the upper part of the car body. For this reason, the force applied to the wheel house gusset 19 can be effectively distributed over the entire vehicle body 1.

  Further, as shown in FIGS. 4 and 5, the upper portion of the wheel house gusset 19 having high rigidity is closely attached to the concave portion 24 of the roof side panel 10. For this reason, it can prevent that the recessed part 24 of the roof side panel 10 deform | transforms so that it may expand greatly. If the adhesive is interposed between the surfaces of the recessed portion 24 of the roof side panel 10 fitted to each other and the surface of the wheel house gusset 19, and these surfaces are joined together, this effect can be further ensured. it can.

  Incidentally, the automobile shown in FIG. 1 has a rear seat (not shown) disposed in the passenger compartment. Moreover, this automobile is provided with a seat belt device for an occupant seated on a rear seat. This seat belt device has a seat belt retractor that winds up the webbing, and a large load may be applied to the seat belt retractor, so the seat belt retractor is firmly fixedly supported to the vehicle body. There is a need to.

  For this reason, conventionally, as shown in FIGS. 7 and 8, a bracket 27 having a thickness larger than that of the panel 7 is fixed to the wheel house outer panel 7 by welding, and bolts and nuts not shown in the bracket 27 are shown. Thus, the seat belt retractor 28 is fixedly supported. However, according to this configuration, not only the bracket 27 having a large thickness is required, but also the notch 29 needs to be formed in the roof side panel 10 for the reason described below.

  Although an interior material (not shown) is located in the vicinity of the vehicle interior of the wheel house outer panel 7 and the roof side panel 10 shown in FIG. 8, it is necessary to prevent the seat belt retractor 28 from interfering with the interior material. There is. For this reason, conventionally, a notch 29 is formed in the roof side panel 10, and a seat belt retractor 28 is disposed in the notch 29. If the notch 29 is not formed in the roof side panel 10, in order to prevent the seat belt retractor 28 and the roof side panel 10 from interfering with each other, the seat belt retractor 28 is disposed on the vehicle interior side from the position shown in FIG. In this case, since the seat belt retractor 28 interferes with the interior material, the interior material is formed in a shape projecting toward the vehicle interior side. Interference with the seat belt retractor 28 must be prevented. However, if the interior material is formed so as to protrude toward the vehicle interior side, the effective living space in the vehicle interior is reduced accordingly.

  Therefore, conventionally, a notch 29 is formed in the roof side panel 10 and a seat belt retractor 28 is disposed here, so that the interior material is mounted on the vehicle without causing the seat belt retractor 28 to interfere with the roof side panel 10 and the interior material. It was made not to reduce the living space in the passenger compartment without projecting to the indoor side. However, if such a notch 29 is formed in the roof side panel 10, the drawback of lowering the rigidity of the roof side panel 10 and thus the torsional rigidity of the vehicle body 1 is inevitable.

  Therefore, in the automobile of this example, as shown in FIGS. 2 and 4, the seat belt retractor 28 is provided with a bolt and a nut at the upper end portion of the wheel house gusset 19 positioned in the recess 24 formed in the roof side panel 10. And is fixed by. The seat belt retractor 28 is directly fixed to the wheel house gusset 19 without using a bracket, but the wheel house gusset 19 is set to have a large plate thickness, and its rigidity and strength are increased. If the seat belt retractor 28 is directly fixed to the wheel house gusset 19, the seat belt retractor 28 can be firmly fixed and supported with respect to the vehicle body. Moreover, since the seat belt retractor 28 is housed in the recess 24 formed in the roof side panel 10, it is not necessary to form a notch in the roof side panel 10 as in the prior art, and the interior material 30 is disposed in the passenger compartment. There is no need to project inward. For this reason, the rigidity of the roof side panel 10 is not lowered, and the effective living space in the passenger compartment is not narrowed.

  As described above, in the interior rear structure of the automobile of this example, the wheel house gusset 19 located in the recess 24 formed in the roof side panel 10 has the seat of the seat belt device for passengers seated on the rear seat. The recess 24 is formed as a retractor fixing portion for fixing the belt retractor 28, and the recess 24 formed in the roof side panel 10 is used as a storage space for the seat belt retractor 28.

  The preferred embodiment of the present invention has been described above, but the present invention is not limited to this embodiment, and various modifications can be made.

DESCRIPTION OF SYMBOLS 1 Car body 2 Roof panel 3 Floor panel 4 Quarter panel 5 Rear wheel 6 Wheel house 7 Wheel house Outer panel 8 Wheel house Inner panel 10 Roof side panel 19 Wheel house Gusset 20 Damper mounting part 24 Recess 25 Bottom wall 26 Gusset groove 28 Seat belt Retractor W Car width direction

Claims (3)

A roof panel that forms the upper part of the vehicle body, a wheel house outer panel, a wheel house for a rear wheel that is located on the inner side in the vehicle width direction of the wheel house outer panel and is fixed to the wheel house outer panel; A quarter panel in which the outer plate of the rear part of the vehicle body is formed on the side in the vehicle width direction, the upper part is fixed to the outer end part in the vehicle width direction of the roof panel, and the lower part is fixed to the wheel house outer panel; A floor panel whose outer end in the vehicle width direction is fixed to the wheel house inner panel, and located on the inner side in the vehicle width direction than the quarter panel. The upper part is fixed to the outer end of the roof panel in the vehicle width direction, and the lower part is the wheel house. A roof side panel integrated with the outer panel, a damper mounting portion to which a damper upper portion of the rear suspension is mounted, and located on the inner side in the vehicle width direction than the roof side panel, and the roof side panel The wheel house gusset is fixed to the wheel house inner panel, and has a plate thickness larger than the thickness of the roof side panel and the wheel house inner panel. optionally recessed in the vehicle width direction outer side as viewed, is formed a recess extending in the vertical direction, is fixed the wheel house gusset surface of the interior side of the bottom wall of the recess is, the the wheel house gusset, the rear part of the vehicle gusset groove extending continuously in a recess formed in the roof side panel is formed Elephants. A portion of the wheel house gusset located in a recess formed in the roof side panel is configured as a retractor fixing portion for fixing a seat belt retractor of a seat belt device for an occupant seated on a rear seat. The vehicle body rear part structure according to claim 1, wherein the formed recess is used as a storage space for the seat belt retractor. A roof panel that forms the upper part of the vehicle body, a wheel house outer panel, a wheel house for a rear wheel that is located on the inner side in the vehicle width direction of the wheel house outer panel and is fixed to the wheel house outer panel; A quarter panel in which the outer plate of the rear part of the vehicle body is formed on the side in the vehicle width direction, the upper part is fixed to the outer end part in the vehicle width direction of the roof panel, and the lower part is fixed to the wheel house outer panel; A floor panel whose outer end in the vehicle width direction is fixed to the wheel house inner panel, and located on the inner side in the vehicle width direction than the quarter panel. The upper part is fixed to the outer end of the roof panel in the vehicle width direction, and the lower part is the wheel house. A roof side panel integrated with the outer panel, a damper mounting portion to which a damper upper portion of the rear suspension is mounted, and located on the inner side in the vehicle width direction than the roof side panel, and the roof side panel The wheel house gusset is fixed to the wheel house inner panel, and has a plate thickness larger than the thickness of the roof side panel and the wheel house inner panel. A recess recessed outward in the vehicle width direction as viewed and extending in the vertical direction is formed, and the wheel house gusset is fixed to the inner surface of the bottom wall of the recess and formed on the roof side panel. The part of the wheel house gusset located in the recess is the seat belt device for passengers seated on the rear seat. Over safety belt is configured as a retractor fixing unit for fixing the retractor, rear vehicle body structure in which a concave portion formed in the roof side panel is used as a receiving space of the seat belt retractor.

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