JP2020006911A - Vehicle roof peripheral structure - Google Patents

Abstract

To improve the appearance performance of a vehicle, particularly, a two-tone roof type vehicle, and prevent a reduction in manufacturing efficiency of the vehicle in a vehicle roof peripheral structure.SOLUTION: In a vehicle roof peripheral structure, a roof side rail 20 has a roof surface 21 that is located below a vehicle with respect to roof panels 10, 40 and faces a top surface 1b of a roof portion 1 of the vehicle. An upper edge 31 of a side door panel 30 is disposed outside the roof side rail 20 in a vehicle width direction. Design surfaces 11a, 41a of side edges 11, 41 of the roof panels 10, 40 and a design surface 31a of the upper edge 31 of the side door panel 30 constitute a part of a vehicle body design surface 4 while forming a parting P therebetween. At least a part of the parting P is disposed below the roof surface 21 of the roof side rail 20 in the vehicle.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a vehicle roof peripheral structure in which a design surface of a side door panel and a design surface of a roof panel form a part of a design surface of a vehicle body while forming a parting between them.

  A roof peripheral structure of a vehicle such as an automobile typically includes a roof panel constituting a roof portion, a side door panel located below the vehicle with respect to the roof panel, and a roof panel and a side door panel in the vehicle vertical direction. And an outer panel of a roof side rail located. The roof panel, the outer panel of the roof side rail, and the side door panel constitute a design surface of the vehicle body.

  Typically, in the structure around the roof of a vehicle, the outer panel of the roof side rail is positioned between the side edge of the roof panel in the vehicle width direction and the upper end of the door sash of the front side door in the vehicle vertical direction. It is curved to form a part. (For example, see Patent Document 1)

JP 2008-68762 A

  2. Description of the Related Art In recent years, two-tone roofs having different colors for a roof panel and a side door panel have been employed in vehicles in order to improve the appearance performance thereof. However, when the two-tone roof is employed in the above-described roof peripheral structure of the vehicle, the boundary between the color on the roof panel side and the color on the side door panel side is located on the upper edge of the side door panel in the vehicle vertical direction or the outer panel on the roof side rail. Be placed. Therefore, it is necessary to separately paint the two colors of the roof panel side color and the side door panel side color on the side door panel or the outer panel of the roof side rail.

  In such a side door panel or roof side rail outer panel coating, a first masking step of masking an area to be coated with one of two colors, and a first coating step of coating the other of the two colors. A first drying step of drying the other painted area of the two colors, a second masking step of masking the other painted area of the two colors, and painting one of the two colors; It is necessary to carry out a second coating step and a second drying step for drying the area coated with one of the two colors. However, performing two masking steps, two painting steps, and two drying steps on one part, such as a side door panel or an outer panel of a roof side rail, greatly reduces the efficiency of manufacturing a vehicle. Things.

  In view of such circumstances, it is desired to improve the external appearance performance of a vehicle, particularly a two-tone roof type vehicle, and to prevent a reduction in the manufacturing efficiency of the vehicle, in the structure around the roof of the vehicle.

  In order to solve the above problems, a roof peripheral structure of a vehicle according to one aspect includes a roof panel constituting a roof portion of the vehicle, a roof side rail located at a side edge of the roof portion in a vehicle width direction, A side door panel located below the vehicle with respect to a side edge portion of the roof panel in the vehicle width direction, wherein the roof side rail is located below the vehicle with respect to the roof panel. A roof surface facing a top surface of the roof portion, wherein an upper edge of the side door panel in a vehicle vertical direction is disposed outside the roof side rail in a vehicle width direction, and a side edge of the roof panel; The design surface of the side door panel and the design surface of the upper edge portion of the side door panel form a part of the vehicle body design surface while forming a parting between them, and the parting Some and also is disposed on the vehicle lower than the roof surface of the roof side rail.

  According to the roof peripheral structure of a vehicle according to one aspect, the appearance performance of a vehicle, particularly, a two-tone roof type vehicle can be improved, and a reduction in the manufacturing efficiency of such a vehicle can be prevented.

1 is a perspective view schematically showing a vehicle including a roof peripheral structure of a vehicle according to a first embodiment. FIG. 2 is a cross-sectional view taken along line AA of FIG. 1 at one end in a vehicle width direction in a vehicle roof peripheral structure according to the first embodiment. It is sectional drawing which cut | disconnected one end part in the vehicle width direction in the roof peripheral structure of the vehicle which concerns on 2nd Embodiment along the line equivalent to the AA of FIG. FIG. 10 is a cross-sectional view of one end in a vehicle width direction of a vehicle roof peripheral structure according to a third embodiment cut along a line corresponding to line AA in FIG. 1. It is sectional drawing which cut | disconnected one end part in the vehicle width direction in the roof peripheral structure of the vehicle which concerns on 4th Embodiment along the line equivalent to the AA of FIG.

  The structure around the roof of the vehicle according to the first to fourth embodiments will be described together with the vehicle including the same. 1 to 5 used in the description of the present embodiment, an arrow W1, an arrow W2, an arrow U, and an arrow D indicate one side in the vehicle width direction, the other side in the vehicle width direction, and the upper side and the lower side of the vehicle, respectively. Indicated by 1 and 2, the front side and the rear side of the vehicle are indicated by arrows F and R, respectively.

  In the following, a description will be given of one side end portion in the vehicle width direction of the vehicle roof peripheral structure, but the peripheral structure of the front pillar can be adopted at both side end portions in the vehicle width direction. The peripheral structure of the front pillar can of course be employed only at one end in the vehicle width direction.

[First Embodiment]
The structure around the roof of the vehicle according to the first embodiment will be described together with the vehicle including the same.

[Outline of roof structure]
First, an outline of a roof peripheral structure according to the present embodiment will be described. As shown in FIGS. 1 and 2, the vehicle has a roof panel 10 constituting a roof portion 1. The vehicle has a roof side rail 20 located at a side edge 1a of the roof portion 1 in the vehicle width direction. The roof side rail 20 may extend in the vehicle front-rear direction. The vehicle further includes a side door panel 30 located below the vehicle with respect to the side edge 11 of the roof panel 10 in the vehicle width direction. The side door panel 30 forms the side door 3 located on the vehicle body side surface part 2 in the vehicle width direction.

  As shown in FIG. 2, the roof side rail 20 has a roof surface 21 located below the vehicle with respect to the roof panel 10. The roof surface 21 faces the top surface 1b of the roof portion 1. In addition, as shown in FIG. 1, the top surface 1b is located between both side edges 1a of the roof portion 1.

  As shown in FIG. 2 again, the upper edge 31 of the side door panel 30 in the vehicle vertical direction is disposed outside the roof side rail 20 in the vehicle width direction. The outer surface 11a of the side edge 11 of the roof panel 10 facing the outside of the vehicle is a design surface 11a. The outer surface 31a of the upper edge portion 31 of the side door panel 30 facing the outside of the vehicle is a design surface 31a. The design surface 11a of the side edge 11 of the roof panel 10 and the design surface 31a of the upper edge 31 of the side door panel 30 form one part of the vehicle body design surface 4 while forming a parting-off P between these design surfaces 11a. Make up the part.

  The partition P extends along the side edge 11 of the roof panel 10 and the upper edge 31 of the side door panel 30. The entire parting-off P is disposed below the roof surface 21 of the roof side rail 20 below the vehicle. However, a part of the parting-off, in particular, a part of the parting-off direction in the extending direction may be disposed below the roof surface of the roof side rail in the vehicle. That is, at least a part of the parting-off, in particular, at least a part in the extending direction of the parting-off may be arranged below the roof surface of the roof side rail in the vehicle.

[Details of roof peripheral structure]
The details of the roof peripheral structure according to the present embodiment may be as follows. As shown in FIG. 1, in the roof peripheral structure, the design surface 11a of the side edge 11 of the roof panel 10 is colored in a first color S1. The design surface 31a of the upper edge 31 of the side door panel 30 is colored in the second color S2. The first and second colors S1 and S2 are different from each other. That is, the vehicle has a two-tone roof type. In FIG. 1, a portion colored in the first color S1 is indicated by a dot pattern. However, the first and second colors can be the same as one another.

  In the structure around the roof, the roof panel 10 is also integrated. Further, in the roof peripheral structure, the roof panel 10 is a resin molded product. The roof panel may be made of metal such as iron and aluminum.

  As shown in FIG. 2, in the roof peripheral structure, the side edge 11 of the roof panel 10 and the roof side rail 20 are substantially parallel to each other. Further, a mechanical connection portion M1 is provided in which the roof panel 10 and the roof side rail 20 are connected by a clip C which is a mechanical connection element. The clip C is preferably made of resin. However, the clip is not limited to this, and may be made using a material other than resin. For example, the clip may be made using rubber. The mechanical coupling element may be other than a clip as long as it can couple the roof panel and the roof side rail.

  A joint portion N1 in which the roof panel 10 and the roof side rail 20 are joined with the adhesive G is provided. Further, in the roof peripheral structure, the mechanical connection portion M1 is closer to the closing part P than the connection portion N1. When the roof panel is made of metal as described above, the roof panel and the roof side rail may be joined by welding at the joint.

  Further, the structure around the roof may be as follows. As shown in FIG. 1, the roof panel 10 has a top surface portion 12 that forms a top surface portion 1 b of the roof portion 1. The top surface 12 of the roof panel 10 is adjacent to the side edge 11 of the roof panel 10 in the vehicle width direction. The vehicle also has a windshield 5 located in front of the vehicle. The parting line P is disposed in the vehicle vertical direction so as to substantially coincide with a boundary line Q between the upper edge portion 5a of the windshield 5 in the vehicle vertical direction and the front edge portion 13 of the roof panel 10 in the vehicle longitudinal direction. Good to be.

  As shown in FIG. 2, the side edge 11 of the roof panel 10 has a terminal end 14 located corresponding to the parting-off P. The side edge 11 has a parting upper area 15 located above the vehicle with respect to the parting-off P. The upper partition area 15 is inclined from the upper side of the vehicle to the lower side of the vehicle from the central side in the vehicle width direction toward the outside.

  The roof side rail 20 has an upper inclined area 22 located outside the roof surface 21 in the vehicle width direction. The upper inclined area 22 is inclined from the upper side of the vehicle to the lower side of the vehicle from the center side in the vehicle width direction toward the outside. The upper inclined area 22 may be substantially parallel to the closing upper area 15. The upper inclined area 22 may be adjacent to the roof surface 21 in the vehicle width direction. In this case, an upper bent area 23 may be formed between the roof surface 21 and the upper inclined area 22.

  The roof side rail 20 also has a lower inclined section 24 located below the vehicle with respect to the upper inclined section 22. The lower inclined area 24 is inclined from the outer side in the vehicle width direction toward the center side from the upper side of the vehicle toward the lower side of the vehicle. An intermediate bending section 25 is formed between the upper inclined section 22 and the lower inclined section 24 in the vehicle vertical direction. The intermediate bending section 25 may be arranged so as to substantially coincide with the parting-off P in the vehicle vertical direction. The roof side rail 20 and the upper edge 31 of the side door panel 30 are spaced apart in the vehicle width direction. In particular, it is preferable that the lower inclined area 24 of the roof side rail 20 and the upper edge 31 of the side door panel 30 are spaced apart in the vehicle width direction.

  As shown in FIG. 2, in the cross section of the roof peripheral structure viewed from the vehicle front-rear direction, the roof panel 10 has an outermost point K <b> 1 located on the outermost side in the vehicle width direction. The distance between the outermost point K1 and the upper edge 31 of the side door panel 30 is preferably about 1 mm to about 10 mm. The outermost point K1 is located on the design surface 11a of the side edge 11 of the roof panel 10. Further, the outermost point K1 is located at the terminal end 14 of the side edge 11 of the roof panel 10.

  Here, a horizontal line H1 (indicated by an alternate long and short dash line) extending in the vehicle width direction through the outermost point K1 and a tangent line T1 (indicated by alternate long and short dash line) of the design surface 11a of the side edge portion 11 at the outermost point K1. Is assumed. In this case, the tangent line T1 may be arranged so as to rotate the horizontal line H1 about the outermost point K1 by an angle θ1 toward the vehicle lower side and the vehicle center side. Then, the angle θ1 is preferably about 0 degree to about 90 degrees.

  For the mechanical connection M1, the clip C has a tip C1 which is attached to the upper inclined section 22 of the roof side rail 20. The clip C also has a proximal end C2 that is attached to the parting upper area 15 of the side edge 11 of the roof panel 10. The base end C2 may be sandwiched between the roof panel 10 and the roof side rail 20. In particular, the clip C is preferably located near the parting-off P. In other words, the clip C may be located near the end 14 of the roof panel 10.

  For the joint N1, the adhesive G joins the roof panel 10 and the upper inclined area 22 of the roof side rail 20. In particular, the adhesive G is preferably used to join the roof panel 10 and the roof surface 21, the upper inclined area 22, and the upper bent area 23 of the roof side rail 20, respectively.

  Further, as shown in FIG. 1, an outer surface 12a of a top surface portion 12 of the roof panel 10 facing the outside of the vehicle is a design surface 12a, and the design surface 12a is a design of the side edge portion 11 of the roof panel 10. It is colored in the same first color S1 as the surface 11a. In particular, it is preferable that the entire outer surface 10a of the roof panel 10 facing the outside of the vehicle is the design surface 10a colored in a single first color S1.

  As shown in FIG. 2, the outer surface 20a of the roof side rail 20 is colored in the same first color S1 as the design surface 11a of the side edge portion 11 of the roof panel 10. However, the outer surface of the roof side rail may be a different color from the design surface of the side edge of the roof panel.

  As shown in FIG. 1, the outer surface 32 a of the lower portion 32 of the side door panel 30 located below the vehicle with respect to the upper edge 31 of the side door panel 30 is colored in the same second color S2 as the upper edge 31. Design surface 32a. In particular, it is preferable that the entire outer surface 30a of the side door panel 30 facing the outside of the vehicle is the design surface 30a colored in a single second color S2.

  When the design surface 31a of the upper edge 31 of the side door panel 30 is provided, the impact resistance in the vehicle width direction of the upper edge 3a (shown in FIG. 1) of the side door 3 in the vehicle vertical direction is improved. be able to. In the case where a mechanical coupling element such as the clip C is used, the partition P is formed by a space directly sandwiched between the side edge 11 of the roof panel 10 and the upper edge 31 of the side door panel 30. Good. That is, the design surface 11a of the side edge portion 11 of the roof panel 10 and the design surface 31a of the upper edge portion 31 of the side door panel 30 may be continuous while forming the partition P. A parting-off P is formed between the side edge 11 of the roof panel 10 and the upper edge 31 of the side door panel 30 without any intervening member, whereby the appearance performance of the vehicle can be improved.

  As described above, in the roof peripheral structure according to the present embodiment, the design surface 11a of the side edge 11 of the roof panel 10 is painted in the first color S1, and the design surface 31a of the upper edge 31 of the side door panel 30 is the By painting the two colors S2, a vehicle having an excellent appearance, particularly a two-tone roof type vehicle can be easily obtained. That is, in order to obtain a vehicle, in particular, a two-tone roof type vehicle, a complicated process such as two masking steps, two painting steps, two drying steps, etc., for one component as in the related art is required. It is possible to avoid performing the painting operation. Therefore, the appearance performance of a vehicle, particularly a two-tone roof type vehicle, can be improved, and a reduction in the manufacturing efficiency of such a vehicle can be prevented.

  According to the roof peripheral structure according to the present embodiment, when the design surface 11a of the side edge 11 of the roof panel 10 and the design surface 31a of the upper edge 31 of the side door panel 30 are different colors, the two-tone roof is used. The appearance of the vehicle of the type is a different color in which the design surface 11a of the side edge portion 11 of the roof panel 10 and the design surface 31a of the upper edge portion 31 of the side door panel 30 are separated by the cutoff P. The appearance of such a vehicle provides an excellent aesthetic. Therefore, the appearance performance of a vehicle, particularly, a two-tone roof type vehicle can be improved.

  In the roof peripheral structure according to the present embodiment, the roof panel 10 is an integrated product having a top surface portion 12 and a side edge portion 11 extending from the top surface portion 12 to the parting line P. Constitute the roof portion 1. Therefore, compared with the case where the roof portion is configured by roof molding, the number of components of the roof portion 1 can be reduced, and the roof portion 1 can be configured with a simple structure. As a result, it is possible to prevent a reduction in the manufacturing efficiency of the vehicle, particularly, a two-tone roof type vehicle. Also, the integrated roof panel 10 provides excellent aesthetics. As a result, the appearance performance of the vehicle can be improved. In addition, the roof part 1 configured using the integrated roof panel 10 can reduce wind noise during traveling of the vehicle, as compared with a roof part configured by roof molding. Further, as compared with the roof part constituted by the roof molding, the roof part 1 constituted by using the integral roof panel 10 has the roof panel 10 including the side edge part 11 and the top surface part 12 and the roof side rail. 20 can be enlarged. Therefore, particularly when the roof panel 10 is formed of a resin molded product, such a large closed section can suppress a decrease in vehicle performance such as a decrease in body rigidity.

  In the roof peripheral structure according to the present embodiment, the side edge 11 of the roof panel 10 can be reliably supported by the roof side rail 20 substantially parallel to the side edge 11. Further, the roof panel 10 is connected to the roof side rail 20 by using a mechanical connecting element such as a clip and an adhesive together around the parting-off P. Therefore, the roof panel 10 can be fixed so as to keep the parting-off P constant. Furthermore, the roof panel 10 can be prevented from being deformed around the parting-off P, and the appearance performance of the vehicle can be improved. Additionally, it is possible to prevent water such as rainwater from entering between the roof panel 10 and the roof side rail 20 around the parting-off P.

  In the roof peripheral structure according to the present embodiment, the roof panel 10, particularly the side edge portion 11 of the roof panel 10, is connected to the roof side rail 20 by a mechanical connection portion M1 closer to the parting P than the connection portion N1. You. Therefore, the roof panel 10, in particular, the side edge 11 of the roof panel 10 can be fixed so as to suppress the deformation of the parting line P. As a result, the appearance performance of the vehicle can be improved.

[Second embodiment]
The structure around the roof of the vehicle according to the second embodiment will be described together with the vehicle including the same. It will be described together with the vehicle body including it. The structure around the roof of the vehicle according to the present embodiment is the same as the structure around the roof of the vehicle according to the first embodiment, except for the following points. When the components according to the present embodiment are configured in the same manner as the components according to the first embodiment, the same reference numerals as those of the components according to the first embodiment are assigned.

  As shown in FIG. 3, the roof peripheral structure of the vehicle according to the present embodiment has a roof panel 40 described below instead of the roof panel 10 of the first embodiment. The roof panel 40 has a side edge 41 similar to the side edge 11 of the roof panel 10 of the first embodiment. The side edge 41 of the roof panel 40 is formed so as to extend to a space between the roof side rail 20 and the upper edge 31 of the side door panel 30 in the vehicle width direction. The side edge portion 41 of the roof panel 40 is bent at a position corresponding to the parting-off P.

  Further, the structure around the roof may be as follows. As shown in FIG. 3, the outer surface 41a of the side edge portion 41 of the roof panel 41 is a design surface 41a. The design surface 41a of the side edge portion 41 of the roof panel 40 is colored in the first color S1. Although not particularly shown, the roof panel 40 has a top surface portion 42 similar to the top surface portion 12 of the roof panel 10 of the first embodiment. The design surface 42a of the top surface portion 42 of the roof panel 40 is also colored in the first color S1. Further, the entire design surface of the roof panel 40 is colored in a single first color S1. Although not specifically shown, the roof panel 40 also has a front edge similar to the front edge 13 of the first embodiment.

  As shown in FIG. 3 again, the side edge 41 of the roof panel 40 has a terminal end 44 located in a space between the roof side rail 20 and the upper edge 31 of the side door panel 30 in the vehicle width direction. The side edge portion 41 has a parting upper area 45 located above the vehicle with respect to the parting-off P. The upper partition area 45 inclines from the upper part of the vehicle to the lower part of the vehicle from the center in the vehicle width direction to the outside thereof. Further, the parting upper area 45 may be substantially parallel to the upper inclined area 22 of the roof side rail 20.

  The side edge 41 of the roof panel 40 has a parting-down area 46 which is located below the vehicle with respect to the parting-off P. The parting-down area 46 inclines from the outside in the vehicle width direction toward the center side from the upper side of the vehicle toward the lower side of the vehicle. The parting down area 46 may be arranged so as to hide the lower inclined area 24 of the roof side rail 20 when viewed from the outside in the vehicle width direction.

  As described above, the closing bending area 47 is formed between the upper closing area 45 and the lower closing area 46 such that the side edge 41 of the roof panel 40 is bent at a position corresponding to the closing P. The parting bending area 47 is arranged so as to substantially coincide with the parting-off P in the vehicle vertical direction. The parting bending section 47 may be arranged so as to substantially coincide with the middle bending section 25 of the roof side rail 20 in the vehicle vertical direction.

  As shown in FIG. 3, in a cross section of the roof peripheral structure viewed from the vehicle front-rear direction, the roof panel 40 has an outermost point K2 located on the outermost side in the vehicle width direction. The distance between the outermost point K2 and the upper edge 31 of the side door panel 30 is preferably about 1 mm to about 10 mm. The outermost point K2 is located on the design surface 41a of the side edge 41 of the roof panel 40. Further, the outermost point K2 is located in the parting bending area 47 of the side edge 41 of the roof panel 40.

  Here, a horizontal line H2 (shown by a dashed line) extending in the vehicle width direction through the outermost point K2, and a tangent line T2 (shown by a dashed line) at the outermost point K2 of the design surface 41a of the side edge portion 41. Is assumed. In this case, the tangent line T2 may be arranged so as to rotate the horizontal line H2 around the outermost point K2 by an angle θ2 toward the vehicle lower side and the vehicle center side. Then, the angle θ2 is preferably about 90 degrees.

  Further, the roof peripheral structure according to the present embodiment has the following mechanical coupling M2 instead of the mechanical coupling M1 of the first embodiment. In the mechanical connection part M2, the roof side rail 20 and the roof panel 40 are connected by a mechanical connection element as in the first embodiment. In particular, such a mechanical coupling element may be a clip C, like the clip 40 of the first embodiment. It should be noted that also in the mechanical coupling portion of the present embodiment, the mechanical coupling element may be other than a clip as long as the mechanical connection element can couple the roof panel and the roof side rail.

  For such a mechanical connection M2, the tip C1 of the clip C is attached to the upper inclined area 22 of the roof side rail 20. The proximal end C2 of the clip C is attached to the parting-down area 46 of the side edge 41 of the roof panel 40. In particular, the clip C may be located near the terminal end 44 of the roof panel 40.

  The roof peripheral structure according to the present embodiment has a joint N2 similar to the joint N1 of the first embodiment.

  As described above, in the roof peripheral structure according to the present embodiment, the following effects can be obtained in addition to the effects of the roof peripheral structure according to the first embodiment. When the vehicle is viewed from the outside in the vehicle width direction with the side door 3 opened, the roof side rails 20 can be hidden by the side edges 41 of the roof panel 40 around the position corresponding to the parting-off P. Therefore, it is possible to prevent an unsightly level difference from occurring between the roof side rail 20 and the side edge portion 41 of the roof panel 40. In addition, the side edge portion 41 of the roof panel 40 is bent at a position corresponding to the parting-off P, and such bending provides a beautiful curve. As a result, it is possible to provide the vehicle with an excellent appearance. Therefore, the appearance performance of a vehicle, particularly a two-tone roof type vehicle, can be improved, and a reduction in the manufacturing efficiency of such a vehicle can be prevented.

[Third embodiment]
The structure around the roof of the vehicle according to the third embodiment will be described together with the vehicle including the same. It will be described together with the vehicle body including it. The structure around the roof of the vehicle according to the present embodiment is the same as the structure around the roof of the vehicle according to the first embodiment, except for the following points. Note that, when the components according to the present embodiment are configured similarly to the components according to the first embodiment, the same reference numerals as those of the components according to the first embodiment are assigned.

  As shown in FIG. 4, the peripheral structure of the roof according to the present embodiment has the following mechanical connection M3 instead of the mechanical connection M1 of the first embodiment. In the mechanical connection portion M3, the roof panel 10 and the roof side rail 20 are connected using the lip L which is a mechanical connection element. Such a mechanical coupling element M3 is formed such that the lip L holds at least a side edge 11 of the roof panel 10. The lip L is preferably made of resin. However, the lip is not limited to this, and may be made using a material other than the resin. For example, the lip may be made using rubber. Further, the mechanical coupling element may be other than the lip as long as the roof panel and the roof side rail can be coupled.

  The roof peripheral structure according to the present embodiment has the following joint N3 instead of the joint N1 of the first embodiment. At the joint N3, the roof panel 10 and the roof side rail 20 are joined with the adhesive G. Further, in the structure around the roof, the mechanical connection M3 is closer to the parting-off P than the connection N3. In the case where the roof panel is made of metal, the roof panel and the roof side rail may be joined by welding at the joint.

  Further, the roof peripheral structure according to the present embodiment may be as follows. As shown in FIG. 4, for the mechanical connection M3, the lip L has a tip L1 which is attached to the upper inclined section 22 of the roof side rail 20. Such a front end L1 may be sandwiched between the roof panel 10 and the roof side rail 20.

  The lip L also has a proximal end L2 that is attached to the parting upper area 15 of the side edge 11 of the roof panel 10. The base end L2 is attached to the terminal end 14 of the roof panel 10 in a state of being fitted to the terminal end 14. More specifically, the base end L2 is formed in a substantially U-shape so as to have an opening L3 toward the terminal end 14 of the roof panel 10. The terminal end 14 of the roof panel 10 is fitted to the base end L2 of the lip L while being inserted through the opening L3 of the base end L2.

  For the bonding portion N3, the bonding agent G bonds the roof panel 10 and the upper inclined area 22 of the roof side rail 20. The bonding portion N3 may be formed so as to taper from the roof side rail 20 toward the roof panel 10.

  As described above, in the roof peripheral structure according to the present embodiment, the following effects can be obtained in addition to the effects of the roof peripheral structure according to the first embodiment. That is, when the roof panel 10 repeats expansion and contraction due to heat of sunlight or the like, the roof panel 10 is easily deformed together with the parting-off P. If the roof panel 10 is used over time in such an environment, the appearance of the parting-off P may be deteriorated. On the other hand, since the lip L holds the side edge 11 of the roof panel 10, particularly the end 14 of the roof panel 10, the side edge 11 of the roof panel 10 is fixed so as to suppress deformation of the parting-off P. it can.

[Fourth embodiment]
The structure around the roof of the vehicle according to the fourth embodiment will be described together with the vehicle including the same. It will be described together with the vehicle body including it. The structure around the roof of the vehicle according to the present embodiment is the same as the structure around the roof of the vehicle according to the second embodiment, except for the following points. When the components according to the present embodiment are configured similarly to the components according to the second embodiment, the same reference numerals as those of the components according to the second embodiment are assigned.

  As shown in FIG. 5, the roof peripheral structure according to the present embodiment has the following mechanical coupling portion M4 instead of the mechanical coupling portion M2 of the second embodiment. In the mechanical connection part M4, similarly to the third embodiment, the roof side rail 20 and the roof panel 40 are connected by a mechanical connection element. In particular, such a mechanical coupling element may be a lip L as in the third embodiment.

  For such a mechanical connection M4, the tip L1 of the lip L is attached to the lower inclined section 24 of the roof side rail 20. The tip L1 is sandwiched between the roof side rail 20 and the roof panel 40. The proximal end L2 of the lip L is attached to the parting-down area 46 of the side edge 41 of the roof panel 40. The base end L2 is attached to the terminal end 44 of the roof panel 40 in a state where the base end L2 is fitted to the terminal end 44 of the roof panel 40.

  The roof peripheral structure according to the present embodiment has a joint N4 similar to the joint N3 of the third embodiment.

  The roof peripheral structure according to this embodiment as described above can obtain the same effects as those of the roof peripheral structures according to the second and third embodiments.

  Although the embodiments of the present invention have been described so far, the present invention is not limited to the above-described embodiments, and the present invention can be modified and changed based on the technical idea.

DESCRIPTION OF SYMBOLS 1 ... Roof part, 1a ... Side edge part, 1b ... Top surface part, 4 ... Body design surface, 10, 40 ... Roof panel, 11, 41 ... Side edge part, 11a, 41a ... Design surface (outer surface), 20 ... Roof side rails, 21: roof surface, 30: side door panel, 31: upper edge, 31a: design surface (outer surface), P: parting, M1, M2, M3, M4: mechanical joint, C: clip, L: lip, N1, N2, N3, N4: joint, G: adhesive, S1: first color, S2: second color

Claims (8)

A roof panel constituting a roof portion of the vehicle;
A roof side rail located at a side edge in the vehicle width direction of the roof portion,
A side door panel located below the vehicle with respect to a side edge of the roof panel in the vehicle width direction, a roof peripheral structure of the vehicle,
The roof side rail has a roof surface located below the vehicle with respect to the roof panel and facing a top surface of the roof portion,
An upper edge portion of the side door panel in the vehicle vertical direction is disposed outside the roof side rail in the vehicle width direction,
The design surface of the side edge portion of the roof panel and the design surface of the upper edge portion of the side door panel constitute a part of the vehicle body design surface while forming a parting between them.
A vehicle roof peripheral structure, wherein at least a part of the parting is disposed below the roof surface of the roof side rail.   The vehicle roof peripheral structure according to claim 1, wherein a design surface of a side edge portion of the roof panel and a design surface of an upper edge portion of the side door panel have different colors. A side edge of the roof panel is formed to extend in a space between the roof side rail and an upper edge of the side door panel in a vehicle width direction,
The vehicle roof peripheral structure according to claim 1, wherein a side edge of the roof panel is bent at a position corresponding to the parting.   The vehicle roof peripheral structure according to any one of claims 1 to 3, wherein the roof panel is an integral product.   The vehicle roof peripheral structure according to any one of claims 1 to 4, wherein the roof panel is a resin molded product. Side edges of the roof panel and the roof side rails are parallel to each other,
2. A mechanical joint formed by joining the roof panel and the roof side rail with a mechanical joining element, and a joint formed by joining the roof panel and the roof side rail with an adhesive or welding are formed. The roof peripheral structure of a vehicle according to any one of claims 5 to 5.   The vehicle roof structure according to claim 6, wherein the mechanical connection is closer to the parting than the connection.   The vehicle roof peripheral structure according to claim 7, wherein the mechanical coupling is formed such that the mechanical coupling element holds at least a side edge of the roof panel.