JP4368022B2 - Body member joining structure and joining method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle body member coupling structure and a coupling method, and more particularly to a vehicle body member coupling structure and a coupling method for coupling a rail member having a closed cross-sectional shape including an outer panel and an inner panel and a tubular pillar member.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an automobile body has been assembled by spot welding a panel formed by press working and joining members formed in a closed cross-sectional shape to each other by spot welding.
[0003]
On the other hand, as disclosed in, for example, Japanese Patent Application Laid-Open No. 10-1068, a tubular hollow member is used as a main skeleton member of a vehicle body in order to reduce the weight by thinning, improve the strength by integrating components, and improve the assembly efficiency. There is a frame body structure.
[0004]
FIG. 14 is an example thereof, and is a perspective view of a coupling portion between a center pillar 101 made of a tubular hollow member and a side rail 102 having a closed cross-sectional shape made of a press-formed outer panel 103 and an inner panel 104.
[0005]
The structure of the coupling portion will be described in detail with reference to an exploded perspective view shown in FIG. 15. The center pillar 101 is a hollow member having a substantially rectangular cross section extending in the vertical direction. For example, both ends of a tubular center pillar material are covered with lids. Set in the mold of a hydraulic molding device with a molding surface that follows the outer shape of the center pillar, and supply the hydraulic pressure into the center pillar material by a pump connected to the lid. Manufactured by a pipe hydroforming method to form.
[0006]
On the other hand, the outer panel 103 has a side surface 103A, an upper surface 103B, and a lower surface 103C, and has a substantially U-shaped or C-shaped cross section extending in the front-rear direction. A pillar fitting recess 103D is formed on the lower surface 103C. The upper flange 103a is bent along the upper edge of the upper surface 103B, and the lower flange 103b and the pillar coupling flange 103c continuous with each other are formed along the lower edge of the lower surface 103C and the edge of the pillar fitting recess 103D. Has been.
[0007]
The inner panel 104 has a side surface 104A, an upper surface 104B, and a lower surface 104C, and has a substantially U-shaped or C-shaped cross section extending in the front-rear direction. A pillar fitting recess 104D is formed on the lower surface 104C. An upper flange 104a is bent along the upper edge of the upper surface 104B, and a lower flange 104b and a pillar coupling flange 104c continuous with each other are formed along the lower edge of the lower surface 104C and the edge of the pillar fitting recess 104D. Yes.
[0008]
The pillar fitting recess 103D of the outer panel 103 formed in this way is fitted to the upper part of the center pillar 101 from the outside, while the pillar fitting recess 104D of the inner panel 104 is fitted from the inside. As shown in the figure, the outer flange 103a and 104a and the lower flanges 103b and 104b of the outer panel 103 and the inner panel 104 that overlap each other are spot welded to form a side rail 102 having a closed cross-sectional shape extending in the front-rear direction. The center pillar 101 and the side rail 102 are joined by joining the pillar coupling flange 103c and the lower edge of the pillar coupling flange 104c of the inner panel 104 along the outer periphery of the center pillar 101 by arc welding or laser welding.
[0009]
[Problems to be solved by the invention]
14 and 15, the center pillar 101 and the side rail 102 are coupled to each other. According to the structure of the center pillar 101 made of a tubular hollow member, the side having a closed cross section made up of the pressed outer panel 103 and inner panel 104. By combining the rails 102, a vehicle body structure that is relatively lightweight and excellent in strength can be obtained.
[0010]
However, when the center pillar 101 and the side rail 102 are coupled, the pillar coupling flange 103c of the outer panel 103 and the pillar coupling flange 104c of the inner panel 104 are coupled to the center pillar 101 along the outer periphery of the center pillar 101 by arc welding or laser welding. The work to be performed is troublesome and the welding distortion is relatively large, and the correction thereof is unavoidable. As a result, a lot of work man-hours are required and a lot of equipment costs are required for the welding equipment, resulting in an increase in manufacturing costs. Is concerned.
[0011]
Accordingly, an object of the present invention made in view of such a point is to simplify the assembly work and manufacture cost in a vehicle body member that couples a tubular pillar member and a rail member having a closed cross section formed by an outer panel and an inner panel. An object of the present invention is to provide a coupling structure and a coupling method for vehicle body members which can be reduced and are excellent in productivity.
[0012]
[Means for Solving the Problems]
The vehicle body member coupling structure according to claim 1, which achieves the above object, is a vehicle body member coupling structure in which a tubular pillar member and a rail member having a closed cross section formed by an outer panel and an inner panel are coupled. The pillar member has a tubular pillar body, a plate having an outer surface portion and an inner surface portion that are continuously formed on a part of the tubular pillar member, and a bent portion that connects the outer surface portion and the edge of the inner surface portion. And the outer panel that is sandwiched between the outer panel and the inner panel and is polymerized via the notch, and the outer panel and the inner panel. Each portion of the mounting portion and the inner panel is spot welded together.
[0013]
According to the first aspect of the present invention, the joint portion between the pillar member, the outer panel, and the inner panel forms a notch portion on one of the outer side surface portion or the inner side surface portion of the mounting portion formed in a plate shape. Is composed of three layers of either the outer side or inner side, the outer panel, and the inner panel, so that sufficient pressure and current density are ensured by the spot welding electrodes, and sufficient bonding strength between the members is obtained. Since these members are connected by spot welding instead of arc welding or laser welding, the workability is excellent, and there is little weld distortion, and the equipment is relatively simple and equipment costs are reduced. Resulting in a significant reduction in manufacturing costs.
[0014]
According to a second aspect of the present invention, in the vehicle body member coupling structure according to the first aspect, the cutout portion is provided to avoid the bent portion.
[0015]
According to the invention of claim 2, the bent portion formed with relatively high rigidity is continuously formed at the edge portion of the outer side surface portion and the inner side surface portion without being cut by the notch portion, and the strength of the mounting portion is ensured. A strong bond structure is obtained.
[0016]
According to a third aspect of the present invention, in the vehicle body member coupling structure according to the first or second aspect, the pillar member includes a tubular pillar body and an outer surface portion that is continuously formed at the end of the tubular pillar body and overlaps with each other. And an inner side surface part, and a plate-like shape having a front side bent part that connects each front edge of the outer side surface part and the inner side part and a rear side bent part that connects each rear edge, and the notch part is formed on the outer side part. A fitting portion that fits into the cutout portion is formed in the outer panel, the fitting portion is sandwiched between the outer panel and the inner panel, and the fitting portion is fitted into the cutout portion, and the fitting portions overlap each other. The inner side surface portion and the inner panel are spot welded together.
[0017]
The invention of claim 3 embodies the invention of claim 1 or 2, and includes an outer surface portion and an inner surface portion that overlap each other on an end portion of the pillar body, and a front bent portion and a rear bent portion that connect them. And a mounting portion having a notch portion formed on the outer side surface portion, and a fitting portion that fits into the notch portion is formed on the outer panel, and the mounting portion is sandwiched between the outer panel and the inner panel. The object can be easily achieved by spot welding the fitting portion, the inner side surface portion, and the inner panel that are inserted into the cutout portion and overlap each other.
[0018]
According to a fourth aspect of the present invention, in the vehicle body member coupling structure according to the first or second aspect, the pillar member includes a tubular pillar main body and an outer surface portion that is continuously formed at the end of the tubular pillar main body and overlaps with each other. And an inner side surface part and a plate-like shape having a front side bent part that connects the front edges of the outer side surface part and the inner side surface part, and a rear side bent part that connects each rear edge, and the notch part is formed on the inner side surface part. A fitting portion that fits into the cutout portion, is formed between the outer panel and the inner panel, and the fitting portion is fitted into the cutout portion and overlapped with each other. The outer surface portion and the outer panel are spot welded together.
[0019]
The invention of claim 4 embodies the invention of claim 1 or 2, and includes an outer surface portion and an inner surface portion that overlap each other on an end portion of the pillar body, and a front bent portion and a rear bent portion that connect them. A mounting portion having a cut-out portion formed on the inner side surface of the inner panel, forming an insertion portion that fits into the cut-out portion on the inner panel, and sandwiching the mounting portion between the outer panel and the inner panel. By inserting the fitting portion into the portion and spot welding the fitting portion, the inner side surface portion, and the outer panel that overlap each other, the above object can be easily achieved.
[0020]
According to a fifth aspect of the present invention, in the vehicle body member coupling structure according to the first or second aspect, the pillar member includes a tubular pillar body and an outer surface portion that is continuously formed on the front surface portion of the tubular pillar body and overlaps with each other. A front side mounting portion having a front notch portion formed in the outer side surface portion, and a tubular pillar main body. A rear notch is formed in the outer side surface portion in a plate shape having an outer side surface portion and an inner side surface portion that are continuously formed on the rear surface portion and overlap each other, and a rear bent portion that connects each outer edge of the outer side surface portion and the inner side surface portion. A front fitting portion and a rear fitting portion, which are respectively fitted into the front notch portion and the rear notch portion, are formed on the outer panel, and the pillar body, the front attachment portion, and the rear attachment portion are formed. The outer panel and inner panel And the front notch part and the rear notch part are respectively inserted into the front notch part and the rear notch part, and the front fitting part, the inner side face part, and the inner panel that overlap each other are spot welded together, and The rear fitting portion, the inner side surface portion, and the inner panel that overlap each other are pot-welded together.
[0021]
The invention according to claim 5 embodies the invention according to claim 1 or 2, and is a front mounting portion and a rear side each having a plate-like shape on the front surface portion and the rear surface portion of the pillar body and having an outer surface portion and an inner surface portion, respectively. Protruding mounting portions, forming front notch portions and rear notch portions on each outer surface portion, forming front insert portions and rear insert portions that fit into the notch portions on the outer panel, and forming front notches and Spot the front fitting part, the inner side face part and the inner panel, and the rear fitting part, the inner side face part and the inner panel, which are respectively overlapped with each other by fitting the front insertion part and the rear insertion part to the rear cutout part. The above object can be achieved by welding, and the tubular pillar main body extends to the end of the pillar member, so that the rigidity of the pillar member is further ensured.
[0022]
According to a sixth aspect of the present invention, in the vehicle body member coupling structure according to the first or second aspect, the pillar member includes a tubular pillar body and an outer surface portion that is continuously formed on the front surface portion of the tubular pillar body and overlaps with each other. A front side mounting portion having a front notch portion formed in the inner side surface portion, and a tubular pillar main body. The outer side surface portion and the inner side surface portion that are continuously formed on the rear surface portion and overlap each other, and the outer side surface portion and the rear side bent portion that connects the respective rear edges of the inner side surface portion, and the rear notch portion on the inner side surface portion. A front fitting portion and a rear fitting portion, which are respectively fitted in the front notch portion and the rear notch portion, are formed on the inner panel, and the pillar body, the front attachment portion, and the rear side are formed. Install the outer panel and the inner And the front notch part and the rear notch part are fitted with the front fitting part and the rear fitting part, respectively, and the front fitting part, the outer surface part, and the outer panel that overlap each other are spot welded together, And the back part insertion part which overlaps mutually, an outer surface part, and the outer panel were pot welded together, It is characterized by the above-mentioned.
[0023]
The invention of claim 6 embodies the invention of claim 1 or 2, and is a front mounting portion and a rear side each having a plate-like shape on the front surface portion and the rear surface portion of the pillar main body and having an outer surface portion and an inner surface portion, respectively. Protruding mounting parts, forming front notch and rear notch on each inner side, and forming front insert and rear insert into the notch on the inner panel By spot welding the front fitting part, the outer side face part, and the outer panel, and the rear fitting part, the side side face part, and the outer panel, which are overlapped with each other by fitting the front insertion part and the rear insertion part to the notch part, respectively. The object can be achieved, and the tubular pillar main body extends to the end of the pillar member, so that the rigidity of the pillar member is further ensured.
[0024]
The vehicle body member coupling method according to claim 7 is a vehicle body member coupling method in which a tubular pillar member and a rail member having a closed cross section formed by an outer panel and an inner panel are coupled. In the tubular pillar intermediate molded product with the face part forming part formed to face, the notch part forming part is notched in either the outer side part forming part or the inner side part forming part, and the outer side surface forming part and the inner side part are formed by press molding. Forming a tubular pillar member having an outer surface and an inner surface, and an outer surface and an inner surface, each having a notch formed on the outer surface and contacting each other, and forming the mounting with the outer panel Spot welding is performed on each part of the outer panel, the mounting portion, and the inner panel that are sandwiched by the inner panel and overlapped through the notch. To.
[0025]
According to the invention of claim 7, the notch part forming part is cut out in one of the outer side part forming part or the inner side part forming part of the tubular pillar intermediate molded product in which the outer side part forming part and the inner side part forming part are formed to face each other. A tubular pillar having an outer surface portion and an inner surface portion that overlap each other and a mounting portion in which a notch portion is formed on one of the outer surface portion or the inner surface portion by bringing the outer surface portion and the inner surface portion forming portion into contact with each other by press molding. The member can be easily obtained, and the pillar member and the rail member can be efficiently combined by spot welding the one of the outer surface portion or the inner surface portion, the outer panel, and the inner panel.
[0026]
Embodiment
Embodiments of a vehicle body member coupling structure and a coupling method according to the present invention are coupled to a center pillar serving as a pillar member formed by a tubular hollow member, and a side rail serving as a rail member formed by an outer panel and an inner panel. A case will be described as an example.
[0027]
(First embodiment)
A first embodiment of a vehicle body member coupling portion structure and coupling method according to the present invention will be described with reference to FIGS.
[0028]
FIG. 1 is a perspective view showing a coupling portion between the center pillar 10 and the side rail 20, and FIG. 2 is an exploded perspective view of the portion. The arrow F indicates the front of the vehicle body, the arrow IN indicates the interior of the vehicle, and the arrow OUT indicates the outward direction.
[0029]
As shown in FIG. 3, the center pillar 10 includes a pillar main body 11 that is formed of a tubular hollow member and extends in the vertical direction, and a mounting portion 12 that is continuously formed at the upper end of the pillar main body 11.
[0030]
The pillar main body 11 has a front surface portion 11c and a rear surface portion 11d extending between the front and rear edges of the outer surface portion 11a, the inner surface portion 11b, the outer surface portion 11a, and the inner surface portion 11b, and has a cross section that extends in the vertical direction. It is formed in a rectangle.
[0031]
On the other hand, the attachment portion 12 has an outer surface portion 12a and an inner surface portion 12b which are overlapped with each other and have a width b larger than the width a before and after the pillar body 11 and extend in the front-rear direction. Each front edge and each rear edge of the inner side surface portion 12b are formed in a flat plate shape that is continuously formed by a front bent portion 12c and a rear bent portion 12d.
[0032]
The upper part of the pillar main body 11 in the continuous part of the pillar main body 11 and the mounting portion 12 approaches each other as the outer side surface portion 11a and the inner side surface portion 11b move upward, and the upper end of the outer side surface portion 11a is smooth to the outer side surface portion 12a of the mounting portion 12. While the upper end of the inner side surface portion 11b smoothly transitions to the inner side surface portion 12b, the front bent portion 12c of the mounting portion 12 is continuously formed in a flange shape on the front surface portion 11c of the pillar body 11, and the rear side folding The curved portion 12d is continuously formed in a flange shape on the rear surface portion 11d of the pillar body 11.
[0033]
Further, a first notch portion 14 is formed in a concave shape at the center of the upper edge of the outer surface portion 12a of the mounting portion 12, and a second notch portion 15 is formed between the first notch portion 14 and the front bent portion 12c. The third cutout portion 16 is formed between the first cutout portion 14 and the rear bent portion 12d.
[0034]
The second cutout portion 15 and the third cutout portion 16 are set apart from the front bent portion 12c and the rear bent portion 12d so as to avoid contact with each other. The bent portion 12d is continuously formed over the entire length of the front edge and the rear edge of the attachment portion 12 without being affected by the second notch portion 15 and the third notch portion 16, and as a result, the rigidity strength of the attachment portion 12 and The rigidity strength of the transition portion between the pillar main body 11 and the mounting portion 12 is ensured.
[0035]
Here, the manufacturing method of the center pillar 11 formed in this way will be briefly described with reference to FIG.
[0036]
First, for example, a tubular center pillar material is prepared, and both ends of the center pillar material are sealed with a lid or the like, while the hydrostatic molding device having a molding surface that substantially follows the outer shape of the center pillar. A center pillar intermediate molded product 10A that substantially follows the shape of the center pillar 10 is manufactured by a pipe hydroforming method by supplying hydraulic pressure into the center pillar material by a pump or the like connected to the lid.
[0037]
The center pillar intermediate molded product 10A has a shape substantially following the center pillar 10, but the upper end portion where the attachment portion 12 is formed is a flat plate-like outer surface portion facing each other as shown in FIG. The length of the expanded diameter which has the forming part 12A and the inner side face forming part 12B, and both ends are connected by the front bent part forming part 12C and the rear bent part forming part 12D having a substantially arcuate or U-shaped cross section. It is formed in a hole shape.
[0038]
A first notch forming portion 14A is formed in a concave shape along the upper edge of the outer surface portion forming portion 12A in the outer surface portion forming portion 12A of the center pillar intermediate molded product 10A, and the first notch forming portion 14A. The second notch forming portion 15A is perforated between the first bent portion forming portion 12C and the third notched portion forming portion 16A between the first notched portion forming portion 14A and the rear bent portion forming portion 12D. Perforate.
[0039]
The notches of the first notch forming part 14A and the perforations of the second notch forming part 15A and the third notch forming part 16A have a low thermal influence, laser cutting, etc. capable of high speed and precise cutting. Is preferred.
[0040]
After that, the front bent portion forming portion 12C and the rear bent portion forming portion 12D are crushed by pressing so that the outer surface portion forming portion 12A and the inner side surface forming portion 12B are in contact with or pressed against each other. The outer side surface portion forming portion 12A and the inner side surface forming portion 12B come into contact or pressure contact with each other, and the upper portion of the mounting portion 12 and the pillar body 11 as shown in FIG.
[0041]
On the other hand, the side rail 20 has a closed cross-sectional shape extending in the front-rear direction formed by a press-molded outer panel 21 and an inner panel 25. The outer panel 21 includes a side surface 21A and an upper surface 21B as shown in FIG. The lower surface 21C has a substantially U-shaped or C-shaped cross section extending in the front-rear direction, and the lower surface 21C has a pillar fitting recess 21D that can be fitted to the mounting portion 12 of the center pillar 10 from the outside. The upper flange 21a is bent along the upper edge of the upper surface 21B, and the lower flange 21b and the pillar coupling flange are continuous with each other along the lower edge of the lower surface 21C and the edge of the pillar fitting recess 21D. 21c is formed.
[0042]
The pillar coupling flange 21c has a first insertion portion 22 that can be fitted from the outside into the first cutout portion 14, the second cutout portion 15, and the third cutout portion 16 formed in the mounting portion 21 of the center pillar 10, and The 2 insertion part 23 and the 3rd insertion part 24 are recessed, and the 1st insertion part 22, the 2nd insertion part 23, and the 3rd insertion part 24 are the 1st notch part 14, the 2nd notch part 15, and the 3rd notch part, respectively. 16, the top portions 22 a, 23 a, and 24 a are set to contact the inner side surface portion 12 b of the mounting portion 12.
[0043]
The inner panel 25 has a side surface 25A, an upper surface 25B, and a lower surface 25C, and has a substantially U-shaped or C-shaped cross section extending in the front-rear direction. An upper flange 25a is bent along the upper edge of 25B, and a lower flange 25b and a pillar coupling flange 25c continuous with each other are formed along the lower edge of the lower surface 25C and the edge of the pillar fitting recess 25D.
[0044]
Next, the coupling of the center pillar 10, the outer panel 21, and the inner panel 25 formed in this way will be described with reference to FIGS. 1 and 2.
[0045]
First, the pillar fitting recess 25D of the inner panel 25 is fitted into the mounting portion 12 of the center pillar 10 from the inside, and the pillar coupling flange 25c is overlapped and positioned on the inner side surface portion 12b of the mounting portion 12, while the outer panel 21 The pillar fitting recess 21D is fitted to the mounting portion 12 of the center pillar 10 from the outside, and the first insertion portion 22, the second insertion portion 23, and the third insertion portion 24 are formed on the outer side surface portion 12a of the mounting portion 12, respectively. The first notch 14, the second notch 15, and the third notch 16 are fitted to overlap the pillar coupling flange 21 c on the outer surface 12 a, and the upper flanges 21 a and 25 a of the outer panel 21 and the inner panel 25, and the lower flange 21b and 25b are each polymerized.
[0046]
In this state, the top portions 22a, 23a, and 24a of the first insertion portion 22, the second insertion portion 23, and the third insertion portion 24 that are respectively inserted into the first cutout portion 14, the second cutout portion 15, and the third cutout portion 16. Is brought into contact with the inner side surface portion 12b.
[0047]
Thereafter, as shown in FIG. 1, the upper flanges 21a and 25a and the lower flanges 21b and 25b of the outer panel 21 and the inner panel 25 that overlap each other are spot welded to form a side rail 20 having a closed cross-sectional shape extending in the front-rear direction. To do.
[0048]
On the other hand, as shown in the sectional view taken along the line I-I in FIG. 5, the top 22 a of the first fitting portion 22 formed on the pillar coupling flange 21 c of the outer panel 21 that overlaps with each other, and the mounting portion 12 of the center pillar 10. The inner side surface portion 12b and the pillar coupling flange 25c of the inner panel 25 are spot welded together, and the top portion 23a of the second insertion portion 23 and the inner side surface portion 12b are taken along the line II-II in FIG. And the pillar coupling flange 25c of the inner panel 25 are spot welded together.
[0049]
Similarly, the top portion 24a of the third insertion portion 24, the inner side surface portion 12b, and the pillar coupling flange 25c of the inner panel 25 are spot welded together to couple the upper portion of the center pillar 10 and the side rail 20 together.
[0050]
In this connection, not only spot welding of the upper flanges 21a and 25a and the lower flanges 21b and 25b of the outer panel 21 and the inner panel 25, but also a welded portion of the top portion 22a of the first insertion portion 22, the inner side surface portion 12b, and the pillar coupling flange 25c, In the welded portion between the top 23a of the second insertion portion 23, the inner side surface portion 12b and the pillar coupling flange 25c, and in the welded portion between the top portion 24a of the third insertion portion 24, the inner side surface portion 12b and the pillar coupling flange 25c, The number of members to be welded is three or less, the pressure applied by the electrodes during spot welding is ensured, the contact area between the members is ensured moderately, and the current density is prevented from decreasing, and the bonding strength between the members Is secured.
[0051]
In addition, the connection between the outer panel 21 and the inner panel 25 that form the side rail 20 and the connection between the center pillar 10 and the side rail 20 are connected by spot welding, not by arc welding or laser welding. Therefore, the workability is excellent, the welding distortion is less generated, the equipment is relatively simple, the equipment cost can be reduced, and the manufacturing cost is greatly reduced.
[0052]
In the present embodiment, instead of the outer side surface portion 12a of the mounting portion 12, the first notch portion 14, the second notch portion 15, and the third notch portion 16 are formed on the inner side surface portion 12b, and the pillar coupling portion of the inner panel 25 is formed. It is also possible to form the first insertion portion 22, the second insertion portion 23, and the third insertion portion 24 in the flange 25c. In this case, the attachment portion 12 is connected to the pillar coupling portion flange 21c of the outer panel 21 and the inner panel 25. While sandwiched by the pillar coupling portion flange 25c, the first insertion portion 22, the second insertion portion 23, and the third insertion portion 24 are fitted into the first cutout portion 14, the second cutout portion 15, and the third cutout portion 16, respectively. The first insertion portion 22, the second insertion portion 23, the third insertion portion 24, the outer surface portion 12a, and the pillar coupling portion flange 21c of the outer panel 21 are spot welded. Further, the fitting portion and the fitting portion can be increased or decreased to other plural numbers depending on the required coupling rigidity or the like.
[0053]
(Second Embodiment)
Next, a second embodiment of the vehicle body member coupling portion structure and coupling method according to the present invention will be described with reference to FIGS. 7 to 10, parts corresponding to those in FIGS. 1 to 6 are denoted by the same reference numerals, detailed description thereof will be omitted, and different parts will be mainly described.
[0054]
FIG. 7 is a perspective view showing a coupling portion between the center pillar 10 and the side rail 20, and FIG. 8 is a perspective view of a main part of the center peeler 10.
[0055]
As shown in FIG. 8, the center pillar 10 includes a pillar main body 11 that is formed of a tubular hollow member and extends in the vertical direction, and a mounting portion 12 that is continuously formed at the upper end of the pillar main body 11. The inner surface has an outer surface portion 12a and an inner surface portion 12b that are superposed on each other and have a width larger than the front and rear widths of the pillar body 11 and extend in the front-rear direction, and the front edges of the outer surface portion 12a and the inner surface portion 12b, Each rear edge is formed in a flat plate shape continuously formed by the front bent portion 12c and the rear bent portion 12d.
[0056]
A notch 31 is formed in the center of the upper edge of the outer surface 12a of the mounting portion 12 so as to be recessed in the substantially entire width of the mounting portion 12a. Both ends of the notch 31 are respectively bent at the front bent portion 12c and the rear folding portion. It is set apart from the curved portion 12d, and the front bent portion 12c and the rear bent portion 12d are continuous over the entire length of the front edge and the rear edge of the mounting portion 12 without being affected by the notch portion 17. Thus, the rigidity of the mounting portion 12 and the transition portion between the pillar body 11 and the mounting portion 12 is ensured.
[0057]
The manufacturing method of the center pillar 11 formed in this way will be briefly described with reference to FIG.
[0058]
First, for example, a pipe-shaped center pillar material is set in a mold body of a hydraulic forming apparatus having a molding surface that substantially follows the outer shape of the center pillar 10, and the hydraulic pressure is supplied into the center pillar material so as to be approximately centered. A center pillar intermediate molded product 10 </ b> A copied by the pillar 10 is manufactured.
[0059]
The upper end of the center pillar intermediate molded product 10A on which the mounting portion 12 is formed has a flat plate-like outer surface portion forming portion 12A and inner surface portion forming portion 12B opposite to each other as shown in FIG. Is formed into a long hole shape that is connected and expanded by the front bent portion forming portion 12C and the rear bent portion forming portion 12D. As shown in FIG. 9B, the notch portion forming portion 31A is cut into a concave shape in the outer surface forming portion 12A of the center pillar intermediate molded product 10A by laser cutting or the like.
[0060]
Thereafter, the outer side surface forming portion 12A and the inner side surface forming portion 12B are pressed so as to abut or press against each other, whereby the front bent portion forming portion 12C and the rear bent portion forming portion 12D are crushed. The center pillar 10 shown in FIG.
[0061]
On the other hand, the outer panel 21 has a side surface 21A, an upper surface 21B, and a lower surface 21C. A pillar fitting recess 21D that can be fitted from the outside to the mounting portion 12 of the center pillar 10 is provided in the lower surface 21C, and an upper surface 21B. The upper flange 21a is bent, and the lower flange 21b and the pillar coupling flange 21c are continuously formed along the lower edge of the lower surface 21C and the edge of the pillar fitting recess 21D.
[0062]
In the pillar coupling flange 21c, a fitting portion 32 that can be fitted from the outside into the cutout portion 31 of the center pillar 10 is recessed, and the fitting portion 32 is set so that the top portion 32a contacts the inner side surface portion 12b of the mounting portion 12. Has been.
[0063]
The inner panel 25 has a side surface 25A, an upper surface 25B, and a lower surface 25C. A pillar fitting recess (not shown) is provided on the lower surface 25C, and an upper flange 25a is formed on the upper surface 25B, and the lower surface 25C and the pillar are fitted. A lower flange 25b and a pillar coupling flange 25c are formed at the edge of the recess.
[0064]
Next, the coupling of the center pillar 10, the outer panel 21, and the inner panel 25 formed in this way will be described.
[0065]
First, the pillar fitting recess of the inner panel 25 is fitted to the mounting portion 12 of the center pillar 10 from the inside, while the pillar fitting recess 21D of the outer panel 21 is fitted to the mounting portion 12 of the center pillar 10 from the outside. The fitting portion 32 is fitted into the notch portion 31 to superimpose the pillar coupling flange 21c on the outer surface portion 12a, and the upper flanges 21a and 25a and the lower flanges 21b and 25b of the outer panel 21 and the inner panel 25 are superposed.
[0066]
Thereafter, as shown in FIG. 7, the upper flanges 21a and 25a and the lower flanges 21b and 25b of the outer panel 21 and the inner panel 25 that overlap each other are spot welded to form the side rails 20 having a closed cross section, while FIG. As shown in the sectional view taken along line III-III in FIG. 7, the top portion 32 a of the fitting portion 32 formed on the pillar coupling flange 21 c of the outer panel 21 that overlaps with each other, the inner side surface portion 12 b of the mounting portion 12, and the pillar coupling of the inner panel 25. The upper portion of the center pillar 10 and the side rail 20 are joined by spot welding together with the flange 25c.
[0067]
In this connection, not only spot welding of the upper flanges 21a and 25a and the lower flanges 21b and 25b of the outer panel 21 and the inner panel 25, but also the welded portion of the top portion 32a of the fitting portion 32, the inner side surface portion 12b, and the pillar coupling flange 25c is overlapped. The number of members to be welded is three or less, and the bonding strength between the members by spot welding is ensured.
[0068]
Therefore, according to the present embodiment, in addition to the first embodiment, there is one notch portion formed in the attachment portion 11 of the center pillar 10 and one insertion portion formed in the pillar coupling flange 21c of the outer panel 21. Therefore, simplification of the shapes of the mounting portion 11 and the outer panel 21 of the center pillar 10 is brought about.
[0069]
In the present embodiment, the notch 31 is formed on the outer side surface 12a of the mounting portion 12 and the fitting portion 32 is formed on the outer panel 21. However, the notch 31 is formed on the inner side surface 12b, and 25 on the inner panel. It is also possible to form the fitting portion 32 on the pillar coupling portion flange 25c of the outer panel 21. In this case, the attachment portion 12 is sandwiched between the pillar coupling portion flange 21c of the outer panel 21 and the pillar coupling portion flange 25c of the inner panel 25. Then, the fitting portion 32 is fitted into the cutout portion 31, and the fitting portion 32, the outer surface portion 12a, and the pillar coupling portion flange 21c of the outer panel 21 are spot-welded.
[0070]
(Third embodiment)
A third embodiment of a vehicle body member coupling portion structure and coupling method according to the present invention will be described with reference to FIGS. 11 to 13, parts corresponding to those in FIGS. 1 to 6 are denoted by the same reference numerals, detailed description thereof will be omitted, and different parts will be mainly described.
[0071]
11 is a perspective view showing a connecting portion between the center pillar 10 and the side rail 20, FIG. 12 is a perspective view showing a main part of the center pillar 10, and FIG. 13 is a sectional view taken along line IV-IV in FIG. .
[0072]
As shown in FIG. 12, the center pillar 10 includes a pillar main body 11 formed by a tubular hollow member extending in the vertical direction, and a front attachment portion 35 and a rear attachment portion 36 formed on the top of the pillar main body 11. I have.
[0073]
The pillar main body 11 has an outer surface portion 11a, an inner surface portion 11b, a front surface portion 11c, and a rear surface portion 11d, and is formed in a cylindrical shape having a substantially rectangular cross section extending in the vertical direction and opened upward.
[0074]
From the vicinity of the upper ends of the front surface portion 11c and the rear surface portion 11d of the pillar main body 11, a tongue-like front mounting portion 35 and a rear mounting portion 36 are projected in the front-rear direction.
[0075]
The front mounting portion 35 has an outer surface portion 35a and an inner surface portion 35b that are superposed on each other and project forward from the front surface portion 11c, and the front edges of the outer surface portion 35a and the inner surface portion 35b are continuously formed by the front bent portion 35c. The outer side surface portion 35a is formed with a front notch 37 spaced from the front bent portion 35c.
[0076]
Similarly, the rear mounting portion 36 has an outer surface portion 36a and an inner surface portion 36b whose inner surfaces are overlapped with each other and project rearward from the rear surface portion 11d, and the rear edges of the outer surface portion 36a and the inner surface portion 36b are folded back. The outer side surface 36a is formed with a rear notch 38 that is spaced apart from the rear bent portion 36c.
[0077]
In the manufacturing method of the center pillar 11 formed in this way, a pipe-shaped center pillar material is set in a mold body of a hydraulic forming apparatus having a molding surface substantially following the outer shape of the center pillar, The center pillar has a shape that substantially follows the center pillar 10 by supplying fluid pressure to the front pillar and has a bag-like front mounting portion forming portion and a rear mounting portion forming portion bulging on the front and rear sides near the upper end. Form an intermediate molded product.
[0078]
The notch portion forming portion is perforated by laser cutting or the like in the outer surface portion forming portion excluding the front bent portion forming portion formed at the front edge of the front attaching portion forming portion, and at the rear edge of the rear attaching portion forming portion. The outer surface portion forming portion excluding the formed rear side bent portion forming portion is perforated with a notch portion forming portion by laser cutting or the like, and then each outer side of the front side attaching portion forming portion and the rear side attaching portion forming portion. A center pillar 10 as shown in FIG. 12 is formed by pressing the surface portion forming portion and the inner surface forming portion so as to contact or press contact.
[0079]
On the other hand, as shown in FIG. 11, the outer panel 21 has a side surface 21A, an upper surface 21B, and a lower surface 21C. The lower surface 21C has a front mounting portion 35 of the center pillar 10, a center pillar main body 11, and a rear mounting portion 36 from the outside. A pillar fitting recess 21D that can be fitted is recessed, and an upper flange 21a is bent on the upper surface 21B, and a lower flange that is continuous with the lower edge of the lower surface 21C and the edge of the pillar fitting recess 21D. 21b and a pillar coupling flange 21c are formed.
[0080]
The pillar coupling flange 21c has a front insertion portion 41 and a rear insertion portion 42 that can be respectively inserted into the front cutout portion 37 and the rear cutout portion 38 formed in the front attachment portion 35 and the rear attachment portion 6 from the outside. Is recessed, and when fitted into the front cutout portion 37 and the rear cutout portion 38, the respective top portions 41a and 42a come into contact with the inner side surface portion 35b of the front side attachment portion 35 and the inner side surface portion 36b of the rear side attachment portion 36, respectively. Is set.
[0081]
The inner panel 25 has a side surface 25A, an upper surface 25B, and a lower surface 25C. A pillar fitting recess (not shown) is formed in the lower surface 25C, and an upper flange 25a is formed on the upper surface 25B by bending. A lower flange 25b and a pillar coupling flange (not shown) that are continuous with each other are formed along the lower edge and the edge of the pillar fitting recess.
[0082]
Next, the coupling of the center pillar 10, the outer panel 21, and the inner panel 25 formed in this way will be described with reference to FIGS. 11 and 12.
[0083]
First, the pillar fitting concave portion of the inner panel 25 is fitted into the front side mounting portion 35 and the rear side mounting portion 36 of the center pillar 10 and the pillar body 11 from the inside, while the pillar fitting concave portion 21D of the outer panel 21 is fitted to the center pillar 10. The front mounting portion 35, the rear mounting portion 36 and the pillar main body 11 are fitted from the outside, and the front insertion portion 41 is inserted into the front cutout portion 37 and the rear insertion portion 42 is connected to the rear cutout portion 38. insert.
[0084]
Thereafter, as shown in FIG. 11, the upper flanges 21a and 25a and the lower flanges 21b and 25b of the outer panel 21 and the inner panel 25 that overlap each other are spot welded to form a side rail 20 having a closed cross-sectional shape, while overlapping each other. The top portion 41a of the front insertion portion 41 formed on the pillar coupling flange 21c of the outer panel 21, the inner side surface portion 35b of the front mounting portion 35, and the pillar coupling flange of the inner panel 25 are spot welded together, while the rear insertion portion 42 The top portion 42a, the inner side surface portion 36b of the rear attachment portion 36, and the pillar coupling flange of the inner panel 25 are spot welded together, thereby coupling the upper portion of the center pillar 10 and the side rail 20 together.
[0085]
In this connection, not only spot welding of the upper flanges 21a and 25a and the lower flanges 21b and 25b of the outer panel 21 and the inner panel 25, but also the top portion 41a and the inner side surface portion 35b of the front insertion portion 41 and the pillar coupling flange of the inner panel 22 are performed. The welded portion and the welded portion of the apex 42a of the rear insertion portion 42, the inner side surface portion 35b, and the pillar coupling flange of the inner panel 22 have three or less members that are superposed and welded. Bond strength is ensured.
[0086]
Therefore, according to the present embodiment, in addition to the first embodiment, the center pillar 10 is formed in a rectangular cross-sectional shape that is continuous in the vertical direction, so that the rigidity of the center pillar 10 can be improved.
[0087]
In the present embodiment, the front notch 37 is formed on the outer surface 35 a of the front attachment 35, the rear notch 38 is formed on the outer surface 36 a of the rear attachment 36, and the front panel 21 The fitting part 41 and the rear fitting part 42 are formed, but the front side notch part 37 and the rear side notch part 38 are formed on the inner side surface part 35b of the front side mounting part 35 and the inner side surface part 36b of the rear side mounting part 36, respectively. It is also possible to form the front fitting part 41 and the rear fitting part 42 on the panel 21. In this case, the front fitting part 41 that overlaps with each other, the outer surface part 35a, the pillar coupling part flange 21c of the outer panel 21, and The rear fitting portion 32, the outer side surface portion 36a, and the pillar coupling portion flange 21c of the outer panel 21 are each spot welded.
[0088]
The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the invention. For example, in each of the above embodiments, the coupling portion between the center pillar and the side rail has been described. However, a tubular pillar member such as a front pillar and a side rail, a rear pillar and a side rail, a center pillar and a brace, an outer panel, and an inner panel. The present invention can be appropriately applied to a connecting portion with a rail member having a closed cross section formed by a panel.
[0089]
【The invention's effect】
According to the vehicle body member coupling structure according to the present invention described above, in the vehicle body member coupling structure for coupling the tubular pillar member and the rail member having the closed cross section formed by the outer panel and the inner panel, the pillar member and the outer panel And the inner panel and the coupling portion are formed in a plate-like mounting portion by forming a notch in one of the outer surface portion or the inner surface portion, the outer surface portion or the inner surface portion, the outer panel, and the inner panel. And a sufficient bonding strength between the members by spot welding is provided. As a result, the members can be joined by spot welding with excellent workability regardless of arc welding or laser welding, resulting in a significant reduction in manufacturing costs.
[0090]
According to the vehicle body member coupling method of the present invention, in the vehicle body member coupling method for coupling the tubular pillar member and the rail member having a closed cross section formed by the outer panel and the inner panel, the outer surface portion forming portion and the inner surface portion forming portion A notched portion forming portion is cut out at one of the outer surface forming portion or the inner surface forming portion of the tubular pillar intermediate molded product formed opposite to the surface forming portion, and the outer surface forming portion and the inner surface forming portion are contacted by press molding. By making contact, a tubular pillar member having an outer surface portion and an inner surface portion that overlap each other and a mounting portion in which a notch is formed in one of the outer surface portion or the inner surface portion is easily obtained, and one of the outer surface portion or the inner surface portion is obtained. And a pillar member and a rail member can be efficiently couple | bonded by carrying out spot welding of an outer panel and an inner panel.
[Brief description of the drawings]
FIG. 1 is a perspective view of a main part of a vehicle body showing an outline of a first embodiment of a vehicle body member connection part structure and a connection method according to the present invention.
FIG. 2 is an exploded perspective view of FIG. 1;
FIG. 3 is a perspective view of a main part of the center pillar showing an outline of the center pillar.
4A and 4B are schematic explanatory views of a manufacturing method of a center pillar, wherein FIG. 4A is a top perspective view of a center pillar intermediate molded product, FIG. 4B is a top perspective view of a center pillar intermediate molded product with a notch cut out, c) is a top perspective view of a center pillar obtained by pressing a center pillar intermediate molded product.
FIG. 5 is a cross-sectional view taken along the line II of FIG.
6 is a cross-sectional view taken along the line II-II in FIG.
FIG. 7 is a perspective view of a main part of a vehicle body showing an outline of a second embodiment of a vehicle body member coupling portion structure and a coupling method according to the present invention.
FIG. 8 is a perspective view of a main part of the center pillar showing an outline of the center pillar.
9A and 9B are schematic explanatory views of a manufacturing method of a center pillar, in which FIG. 9A is a top perspective view of a center pillar intermediate molded product, FIG. 9B is a top perspective view of a center pillar intermediate molded product with a notch cut out, c) is a top perspective view of a center pillar obtained by pressing a center pillar intermediate molded product.
10 is a cross-sectional view taken along line III-III in FIG.
FIG. 11 is a perspective view of an essential part of a vehicle body showing an outline of a third embodiment of a vehicle body member coupling part structure and coupling method according to the present invention.
FIG. 12 is a perspective view of a main part of the center pillar showing an outline of the center pillar.
13 is a cross-sectional view taken along line IV-IV in FIG.
FIG. 14 is a perspective view of a main part showing an outline of a coupling state between a conventional center pillar and a side rail.
15 is an exploded perspective view of FIG. 14. FIG.
[Explanation of symbols]
10 Center pillar
20 Side rail
11 Pillar body
12 Mounting part
12c Front bent part (bent part)
12d Rear bent part (bent part)
14 First notch (notch)
15 Second notch (notch)
16 Third notch (notch)
10A Center pillar material
12A Inner side surface forming part
12B Inner side surface forming part
12C Front bent part forming part
12D Rear bent part forming part
14A 1st notch part formation part (notch part formation part)
15A Second notch forming part (notch forming part)
16A 3rd notch part formation part (notch part formation part)
20 Side rail (rail member)
21 Outer panel
22 1st insertion part (insertion part)
23 Second insertion part (insertion part)
24 3rd insertion part (insertion part)
25 Inner panel
31 Notch
32 Insertion part
35 Front mounting part
35a outer side surface
35b inner surface
35c Front bent part
36 Rear mounting part
36a outer side surface part
36b Inner side surface
36c Rear bent part
37 Front notch (notch)
38 Rear notch (notch)
41 Front insertion part (insertion part)
42 Rear insertion part (insertion part)

Claims (7)

In a vehicle body member coupling structure that couples a tubular pillar member and a rail member having a closed cross-sectional shape formed by an outer panel and an inner panel,
The pillar member is
A tubular pillar body;
A plate-like shape having an outer side surface portion and an inner side surface portion that are continuously formed on a part of the tubular pillar member, and a bent portion that connects the outer side surface portion and an edge of the inner side surface portion, and the outer side surface portion and the inner side surface portion. A mounting portion formed with a notch on either side,
A connecting structure for a vehicle body member, wherein the mounting portion is sandwiched between an outer panel and an inner panel, and each portion of the outer panel, the mounting portion, and the inner panel that are superposed via the cutout portion is spot welded together. The notch is
The vehicle body member coupling structure according to claim 1, wherein the vehicle body member coupling structure is provided so as to avoid the bent portion. The pillar member is
A tubular pillar body;
An outer side surface portion and an inner side surface portion that are continuously formed at the end portion of the tubular pillar body and overlap each other, a front side bent portion that connects the front edges of the outer side surface portion and the inner side surface portion, and a rear side bent portion that connects the rear edges. And a mounting portion in which a cutout portion is formed in the outer side surface portion,
A fitting part that fits into the notch is formed in the outer panel,
2. The mounting portion is sandwiched between an outer panel and an inner panel, and a fitting portion is fitted into the cutout portion, and the fitting portion, the inner side surface portion, and the inner panel that overlap each other are spot welded together. 3. A coupling structure for vehicle body members according to 2. The pillar member is
A tubular pillar body;
An outer side surface portion and an inner side surface portion that are continuously formed at the end portion of the tubular pillar body and overlap each other, a front side bent portion that connects the front edges of the outer side surface portion and the inner side surface portion, and a rear side bent portion that connects the rear edges. And a mounting portion having a cutout portion formed in the inner side surface portion,
A fitting part that fits into the notch is formed in the inner panel,
3. The mounting portion is sandwiched between an outer panel and an inner panel, and a fitting portion is fitted into the cutout portion, and the fitting portion, the outer surface portion, and the outer panel that overlap each other are spot welded together. The vehicle body member coupling structure described in 1. The pillar member is
A tubular pillar body;
The tubular pillar body is formed in a plate shape having an outer side surface portion and an inner side surface portion that are continuously formed and overlap each other, and a front side bent portion that connects the outer surface portion and the front edge of the inner side surface portion. A front mounting portion formed with a notch,
A plate-like shape having an outer side surface portion and an inner side surface portion that are continuously formed on the rear surface portion of the tubular pillar body and overlap each other, and a rear bent portion that connects the rear edges of the outer side surface portion and the inner side surface portion. A rear mounting portion formed with a rear notch,
A front insertion portion and a rear insertion portion that are respectively inserted into the front notch portion and the rear notch portion are formed on the outer panel,
The pillar main body, the front mounting portion, and the rear mounting portion are sandwiched between the outer panel and the inner panel, and the front notch portion and the rear notch portion are respectively fitted with the front insertion portion and the rear insertion portion, and the front portions are overlapped with each other. 3. The vehicle body member according to claim 1, wherein the fitting portion, the inner side surface portion, and the inner panel are spot welded together, and the rear insertion portion, the inner side surface portion, and the inner panel that overlap each other are pot welded together. Bond structure. The pillar member is
A tubular pillar body;
The tubular pillar body is formed in a plate shape having an outer side surface portion and an inner side surface portion that are continuously formed and overlap each other, and a front side bent portion that connects each outer edge portion and the front edge of the inner side surface portion. A front mounting portion formed with a notch,
The inner side surface portion is formed in a plate shape having an outer side surface portion and an inner side surface portion that are continuously formed on the rear surface portion of the tubular pillar main body and overlap each other, and a rear bent portion that connects the rear edges of the outer side surface portion and the inner side surface portion. And a rear mounting portion formed with a rear notch,
A front insertion portion and a rear insertion portion that are respectively inserted into the front notch portion and the rear notch portion are formed on the inner panel,
The pillar body, the front mounting portion, and the rear mounting portion are sandwiched between the outer panel and the inner panel, and the front notch portion and the rear notch portion are fitted with the front insertion portion and the rear insertion portion, respectively, and are overlapped with each other. The vehicle body member coupling according to claim 1 or 2, wherein the part fitting portion, the outer surface portion, and the outer panel are spot welded together, and the rear fitting portion, the outer surface portion, and the outer panel that overlap each other are pot welded together. Construction. In a vehicle body member coupling method for coupling a tubular pillar member and a rail member having a closed cross section formed by an outer panel and an inner panel,
The tubular pillar intermediate molded product in which the outer surface portion forming portion and the inner surface portion forming portion are formed to face each other is cut out at one of the outer surface portion forming portion and the inner surface portion forming portion, and the outer side is formed by press molding. Forming a tubular pillar member provided with a mounting portion in which a side surface forming portion and an inner surface portion forming portion are brought into contact with each other to overlap each other and an outer side surface portion, an inner side surface portion, an outer side surface portion, and an inner side surface portion are formed with a notch portion,
A method for joining vehicle body members, characterized in that the mounting portion is sandwiched between an outer panel and an inner panel, and each portion of the outer panel, the mounting portion, and the inner panel that are overlapped via the cutout portion is spot welded together.

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