JP3826261B2 - Body structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle body structure configured by combining a substantially hat-shaped panel member and a reinforcement member attached to the panel member.
[0002]
[Prior art]
A vehicle body of an automobile (vehicle) is required to have high rigidity and strength in order to ensure collision safety.
[0003]
Therefore, in a long and narrow pillar portion forming the skeleton of the vehicle body, a closed cross-sectional structure in which an inner panel is assembled to a hat-shaped outer panel having flange portions on both edges via flange portions is used. And, in the same structure, a plurality of types of reinforcement members made of steel plates are assembled (additional) using a flange portion at a place where further reinforcement is required to ensure the necessary strength. Yes.
[0004]
By the way, the structure in which a large number of members are assembled to the outer panel by flange joining to ensure the rigidity and strength has a large variation in assembly accuracy, and the required rigidity and strength are difficult to be secured due to the decrease in rigidity caused by the welded portion.
[0005]
In view of this, it has been considered to secure rigidity enough to replace a plurality of types of reinforcement members with a single, long and narrow reinforcement member having a closed cross-sectional shape.
[0006]
For example, as shown in JP-A-8-337182 and JP-A-8-192238, an elongated member having a closed cross-sectional shape formed by hydroforming or an elongated member having a square cross-section formed by extrusion molding is used as an outer panel. It can be considered to be used as a reinforcement member to be combined.
[0007]
These integrally molded reinforcement members have high rigidity and strength equivalent to multiple types of panel members in one member due to the closed cross-sectional shape formed by the continuous peripheral wall and the work hardening caused by the expansion of the peripheral wall. Is secured.
[0008]
[Problems to be solved by the invention]
Usually, when a sheet metal panel is assembled to the outer panel, a reinforcement member is overlapped and fixed on the flange surface of each flange portion on both sides of the outer panel.
[0009]
Therefore, when assembling the integrally formed reinforcement member, the reinforcement member having a closed cross-sectional shape is overlapped and fixed on a pair of flange surfaces facing in the same direction.
[0010]
However, the same alignment structure using the pair of flange surfaces restricts the direction in which the member can move between the flange surface and the reinforcement member, and the integrally formed reinforcement member has high rigidity. The ability to absorb product variations is quite low, and when the outer panel or reinforcement member has variations in product shape, the outer panel and reinforcement member cannot be aligned well. In particular, in the case of an outer panel in which a pair of flange portions are inclined at an acute angle, it is difficult to naturally align the reinforcement member with the outer panel if there are variations in the product.
[0011]
The occurrence of such an assembly failure may impair the sound insulation performance of the pillar or cause water leakage.
[0012]
Therefore, in such a case, force is applied from the outside, and each flange surface and the outer portion of the reinforcement member are forcedly abutted to fix both, but this makes the work considerably troublesome, As a result, useless stress remains in each part of the component. Therefore, it is not possible to easily solve the assembly failure that may occur when a reinforcement member having a closed cross-sectional shape is used.
[0013]
The present invention has been made by paying attention to the above circumstances, and the purpose of the present invention is to align the position of the substantially hat-shaped panel member and the reinforcement member having the closed cross-sectional shape, which are combined to ensure high rigidity and strength. The object is to provide a vehicle structure that can be carried out naturally without difficulty.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, the vehicle body member according to claim 1 follows a bent portion of the panel member combined with an elongated panel member having a substantially hat-shaped cross section and a portion bent in an arc shape in the longitudinal direction. An elongated reinforcement member formed by hydroform molding or extrusion molding having a bent portion has a substantially convex shape in which one side is narrower than the opening width of the panel member and the other side is wider than the one side. Constructed in a closed cross-sectional shape, and with respect to the panel member, the narrow portion is housed in the recessed space of the panel member, and the side surface of one end in the width direction of the wide portion is extended laterally from one edge of the panel member. Superposed on the flange part, the end face on the other end side in the width direction of the wide part is brought into contact with the vertical wall part extending in the direction intersecting with the extending direction of the flange part from the other edge part of the panel member and combined. .
[0015]
As a result, when the reinforcement member is combined with the panel member, one side in the width direction is displaced along the vertical wall portion of the substantially hat-shaped panel member, and the other side is displaced along the flange portion of the panel member. As a result, variations in products are absorbed.
[0016]
Therefore, since the alignment between the panel member and the reinforcement member can be performed naturally without difficulty, the assembly failure does not occur, and the reinforcement member and the panel member can be combined without causing unnecessary stress.
[0017]
In addition to the above-described object, the vehicle body structure according to claim 2 further includes a panel member and a reinforcement member at an edge on one side of the panel member so that the reinforcement member is further utilized to increase the support rigidity of the window glass member. Based on the premise of the structure of the pillar portion of the vehicle body that supports the window glass member, the side surface on the narrow side of the reinforcement member is arranged to overlap the rear surface of the edge receiving the window glass member, and the reinforcement member The edge portion is reinforced with a box-shaped cross-section formed by the wide portion.
[0018]
In particular, in the vehicle body structure of claims 1 and 2, a plurality of holes used as attachment holes for the outfitting member may be provided in the exposed portion of the reinforcement member exposed from the panel member. For example, by using the rigidity strength of the reinforcement member, the attachment member can be easily attached.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on an embodiment shown in FIGS.
[0020]
FIG. 1 shows a vehicle body 1 of, for example, a four-door automobile (vehicle), and FIGS. 3 to 7 show cross sections of the respective parts of the vehicle body 1, and a front door (not shown) is provided on a side portion of the vehicle body 1. A front side entrance / exit 2 (hereinafter simply referred to as an entrance / exit) is formed.
[0021]
Around the entrance 2, there is a front pillar portion 3 disposed at the front portion, a roof rail portion 4 disposed at the upper portion, a center pillar portion 5 disposed at the rear portion, and a side sill portion 6 disposed at the lower portion. Surrounded by a skeleton member. The front pillar portion 3 is a skeleton portion that is assembled to the side portion of the front window 8 and extends in the vertical direction. The roof rail portion 4 is assembled to the roof panel 9 and extends from the end portion of the front pillar portion 3 to the rear of the vehicle body. The side sill portion 6 is a frame portion that is assembled to a floor panel (not shown) and extends from the lower end portion of the front pillar portion 3 to the rear of the vehicle body, and the center pillar portion 5 is an intermediate portion between the roof rail portion 4 and the side sill portion 6. It is the skeleton part which connects between parts and extends up and down.
[0022]
FIG. 2 shows a skeleton structure obtained by disassembling the periphery of the entrance 2.
[0023]
Referring to FIG. 2, the structure of the front pillar portion 3, the roof rail portion 4, the center pillar portion 5 and the side sill portion 6 has a frame shape in accordance with the shape of each portion as shown in FIG. Is formed from a side outer panel 7 formed integrally with the outer side panel 7. Of the side outer panel 7, an elongated outer panel portion 11 that forms the outer surface of the front pillar portion 3, an elongated outer panel portion 12 that forms the outer surface of the roof rail portion 4, an outer panel portion 13 that forms the outer surface of the center pillar portion 5, and the side sill portion 6 Each outer panel portion 14 forming the outer surface has a substantially hat-shaped cross section with flange portions on both sides. In addition, 11a shows a pair of flange part of the outer panel part 11 projecting sideways, 12a shows a pair of flange part of the outer panel part 12 similarly, 13a shows a pair of flange part of the outer panel part 13, and 14a shows Similarly, a pair of flange portions of the outer panel portion 14 are shown.
[0024]
Then, the outer panel portion 11 is combined with the reinforcement member 16 to form the front pillar portion 3 on the side portion of the front window 8, and the outer panel portion 12 is joined to the side roof inner panel 17 and the flange as shown in FIG. Are combined to form a roof rail portion 4 having a closed cross-sectional shape on the side of the roof panel 9, and the outer panel portion 13 is joined to the center pillar inner panel 18 or the steel plate reinforcement member 19 as shown in FIG. Are combined to form a center pillar portion 5 having a closed cross-sectional shape, and an outer panel portion 14 is combined with a reinforcement member 20 made of a steel plate by flange joining to form a side sill portion 6 having a closed cross-sectional shape on the side of the floor panel. is doing. Reference numeral 21 denotes a panel member that connects the middle of the front pillar portion 3 to a front roof rail (not shown), 22 denotes a fender panel member that is assembled to the lower portion of the outer panel portion 11, and 17a denotes a flange of the side roof inner panel 17. 18a indicates a flange of the center pillar inner panel 18, and 19a indicates a flange of the reinforcement member 19.
[0025]
Among them, the reinforcement member 16 is a long and narrow integrally formed product having a closed cross-sectional shape, for example, a thin and long molded product formed by hydroforming, and the outer panel portion 11 is provided with high rigidity by hydroforming. Reinforced with strength. Hydroform molding is a process in which an upper pipe and a lower mold are housed in a product-shaped mold, water (pressurized liquid) is pressed into the same pipe, and the raw pipe is formed by pressurization from the inside. A method of forming a product with a closed cross-sectional shape that conforms to the shape of the mold surface, by inflating and adapting the inflating element tube to the mold surface of the upper mold and the lower mold, and a closed cross-sectional shape is formed with a continuous peripheral wall In addition, high rigidity and strength corresponding to a plurality of types of reinforcements can be obtained with one component by work hardening caused by extending the peripheral wall of the raw tube. Specifically, as shown in FIG. 2, the reinforcement member 16 extends in a pillar shape from a lower part that wraps with the front part of the side sill part 6 to an upper part near the center pillar part 5. It has a cylindrical shape (closed cross-sectional shape). By adopting this integrally molded product with a closed cross section, the number of parts of the reinforcing material that reinforces the outer panel portion 11 is reduced, or the weight associated with reinforcement is reduced.
[0026]
The reinforcement member 16 has an upper panel 16b that bends along the shape of the sash portion (or door glass) of the front door, and thus bends according to the shape of the sash portion (or door glass) of the front door. If the product (reinforcement member 16 or outer panel portion 11) has a variation in alignment with the upper portion 11d of the portion 11, it is difficult to perform alignment so that the two are in close contact with each other without a gap.
[0027]
Therefore, the present invention is applied to this position alignment. Of course, the present invention may be applied to alignment of other portions.
[0028]
The alignment structure is configured such that the reinforcement member 16 can be shifted in a direction in which product variations can be absorbed while the reinforcement member 16 is in close contact with the outer panel portion 11 as a counterpart member without a gap.
[0029]
Specifically, the reinforcement member 16 is swelled from the raw tube, and is formed from the lower end portion 16c that wraps and assembles with the side sill portion 6 to the vicinity of the root of the sash portion of the front door (both not shown). The cross-sectional shape of each portion in the region X1 is a square shape that can be inserted into the lower portion 11c of the outer panel portion 11, more specifically, as shown in the enlarged view in FIG. 2, the surface facing the vehicle interior is wide and the surface faces the vehicle exterior A trapezoidal constant closed cross-sectional shape with a narrow width, and an inverted T-shape that allows the outer panel portion 11 to be inserted into the cross-sectional shape in the upper region X3 from the vicinity of the base of the sash portion of the front door to the end to the roof rail portion 4 As shown in an enlarged view in FIG. 2, the side (one side) facing the outer panel portion 11 is made narrower, and the other side opposite to the outer panel portion 11 is placed on the other side. There a constant closed cross section of substantially convex shape with a wider. Thus, only the region X3 that is particularly susceptible to product variations has a closed cross-sectional shape suitable for absorbing product variations. Note that a region X2 formed between the region X1 and the region X3 indicates a cross-sectional transition portion where the cross section gradually changes from a trapezoidal shape to a substantially convex shape.
[0030]
Of the reinforcement member 16, a lower portion 16a (region X1) having a trapezoidal cross section includes a lower portion 11c of the outer panel portion 11, an end portion 14c of the outer panel portion 14, and a reinforcement member 20 as shown in FIG. Are fitted into the end portion 20c of the steel plate and joined together by welding.
[0031]
As shown in FIGS. 3 and 4, the upper portion 16b of the reinforcement member 16 that is difficult to align (from the middle stage where the substantially convex cross section starts to the end: region X3) has the narrow portion 25 as the outer panel portion. 11 is placed in a concave space formed by the upper portion 11d of the eleventh portion, and a side surface 26a disposed on one side of the wide portion 26 facing the narrow side, more specifically, on the opposite side (one end side) to the entrance 2 is disposed on the front window. 8 on the back surface of the flange portion 11a that forms the drip rail 9a of the roof panel 9 and the flange portion 11a (corresponding to a flange portion extending from one edge of the outer panel portion 11) that supports the window glass member 8a of FIG. They are superimposed. The end surface 26b of the wide portion 26 facing the entrance / exit 2 is a wall surface of a vertical wall portion extending from a side opposite to the flange portion 11a of the upper portion 11d and extending in a direction intersecting the extending direction of the flange portion 11a, For example, it is abutted against the inner surface of the vertical wall portion 11b that extends in a direction perpendicular to the flange portion 11b.
[0032]
Then, the positioning of the reinforcement member 16 and the upper portion 11d of the outer panel portion 11 are made to align each other as indicated by arrows α and β in FIG. They are combined with each other so that they can be moved (shifted) slightly in the width direction and the depth direction while being in contact with each other.
[0033]
Accordingly, when the upper portion 16a of the reinforcement member 16 is combined with the outer panel portion 11 and there are variations in the product, both sides in the width direction of the upper portion 16a are naturally aligned with the vertical wall portion 11b and the flange surface of the outer panel portion material 11. The contact with the outer panel portion 11 is combined with the outer panel portion 11 while being in contact. That is, the reinforcement member 16 and the outer panel partial member 11 are assembled by absorbing the variation in the product, and there is no defective assembly.
[0034]
Therefore, since the outer panel portion 11 and the reinforcement member 16 can be aligned naturally without difficulty, the reinforcement member 16 formed of a closed cross-section molded product is welded to the outer panel portion 11 without causing unnecessary stress. It can be fixed with. That is, the outer panel portion 11 can be reinforced with the reinforcement member 16 having a closed cross-section.
[0035]
In particular, when the narrow side surface 26a of the reinforcement member 16 overlaps the back surface of the flange portion 11 that receives the window glass member 8a as shown in FIG. Since the flange portion 11 can be reinforced using the portion, the support rigidity of the window glass member 8a can be increased, and the window glass member 8 can be reasonably damped. In addition, 27 in FIG. 4 has shown the molding member which decorates the outer edge part of the window glass member 8a.
[0036]
Further, regarding the reinforcement of the front pillar portion 3, as shown in FIG. 2, the lower end portion 16 c that wraps with the end portion of the side sill portion 6 is formed at the lower end portion of the reinforcement member 16. Since the reinforcement members between the reinforcement members can be avoided, the front pillar portion 3 can be rationally reinforced.
[0037]
As shown in FIGS. 2 to 4, a plurality of holes 30 are provided in each part of the peripheral wall of the reinforcement member 16 exposed from the outer panel portion 11 so as to attach attachment members (not shown) such as various trims and harnesses. By using this, it is possible to easily attach various kinds of outfitting members using the rigidity strength of the reinforcement member 16.
[0038]
Moreover, in this embodiment, the device which prevents extraction of the weather strip member 28 produced when reinforcing the front pillar part 3 using the reinforcement member 16 of a closed cross-section molded product is given.
[0039]
That is, by attaching the reinforcement member 16 of a closed cross-section molded product to the front pillar portion 3, the annular flange portion 29 (the portion indicated by the thick line in FIG. 1) to which the weather strip member 28 surrounding the entrance 2 is attached. 3 to 5, the region of only one flange portion 11 a as seen in the outer panel portion 11, as seen in the joint portion between the outer panel portion 11 and the side roof inner panel 17 as shown in FIG. 6. A region where the two flange portions 11a and 17a overlap each other, three flange portions 13a and 18a, which are seen at the joint portion of the outer panel portion 13a, the center pillar inner panel 18 and the reinforcement member 19 as shown in FIG. 19a and the overlapping area, when the common weather strip member 28 is used, the two flange portions 11a, 7a and the three flange portions 13a, 18a, 19a overlap, the thickness of the entire flange portion is increased, so that the fitting force of the weather strip 28 is ensured. However, in the portion having only one flange portion 11a, the flange portion Since the thickness of the entire portion is thin, it is difficult to secure the fitting force of the weather strip 28, and the weather strip portion is easily detached at the same portion.
[0040]
Therefore, in the region S where only one flange portion 11a is present as in the enlarged portion in FIG. 2, the plate surface of the flange portion is alternately made substantially U-shaped in the thickness direction, for example, in the thickness direction. Even if the common weather strip member 28 is used by forming the portion 30 which is bent to increase the dimension in the thickness direction, it is prevented from being detached.
[0041]
The present invention is not limited to the above-described embodiment, and various modifications may be made without departing from the spirit of the present invention. For example, in the embodiment, an example is given in which a reinforcement member formed of a closed cross-section molded product is combined with a center pillar portion that is a skeleton member of a vehicle body. However, the present invention is not limited thereto, and is used for an outer panel portion that forms a skeleton of another vehicle body. May be. Further, the reinforcement member is a molded product formed by the hydroforming, but a closed cross-sectional molded product formed by extrusion molding may be used.
[0042]
【The invention's effect】
As described above, according to the invention described in claim 1, when a reinforcement member formed of a closed cross-section molded product is combined with a substantially hat-shaped panel member in order to ensure high rigidity and strength. Even if there is a product variation, one side of the reinforcement member in the width direction is displaced along the vertical wall of the substantially hat-shaped panel member, and the other side is displaced along the flange of the panel member. , It will come to combine while absorbing the same variation.
[0043]
Therefore, the panel member and the reinforcement member can be aligned naturally without difficulty, so that not only the assembly failure can be eliminated, but also the reinforcement member and the panel member to be assembled can be fixed without causing unnecessary stress. can do.
[0044]
According to the invention described in claim 2, when the pillar structure that supports the window glass member is configured by the edge portion of the panel member, the edge portion that supports the window glass member at the box-shaped cross section formed by the wide portion of the reinforcement member. Therefore, the reinforcement member can be used to increase the support rigidity of the window glass member, and the vibration damping effect of the window glass member can be improved.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a vehicle body structure reinforced with a reinforcement member of a closed section molded product according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the vehicle body structure.
FIG. 3 is a cross-sectional view of an outer panel portion taken along line AA in FIG.
4 is a cross-sectional view of an outer panel portion taken along line BB in FIG. 1. FIG.
FIG. 5 is a cross-sectional view of an outer panel portion taken along line CC in FIG.
6 is a cross-sectional view of an outer panel portion taken along line DD in FIG. 1. FIG.
7 is a cross-sectional view of a center pillar portion taken along line EE in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Car body 5 ... Center pillar part 8a ... Window glass member 10 ... Side outer panel 11 ... Outer panel part (panel member)
11a: Flange (edge)
11b ... vertical wall 16 ... reinforcement member 25 ... narrow part 26 ... wide part.

Claims (2)

An elongated panel member that has a substantially hat-shaped cross-section and has a portion that bends in an arc shape in the longitudinal direction, and forms a skeleton of the vehicle;
An elongated reinforcement member formed by hydroform molding or extrusion molding having a bent portion following the bent portion of the panel member, which is continuously accommodated in the longitudinal direction of the panel member and reinforces the panel member. A vehicle body structure configured as
The reinforcement member is
The one side is narrower than the opening width of the panel member and the other side is wider than the one side. In the space, the side surface of one end in the width direction of the wide portion is overlapped with the flange portion extending laterally from one edge of the panel member,
Combining with the panel member by bringing the end face on the other end side in the width direction of the wide portion into contact with the vertical wall portion extending in the direction intersecting the extending direction of the flange portion from the other edge portion of the panel member. Body structure characterized by The panel member and the reinforcement member cooperate to form a pillar portion of a vehicle body that supports a window glass member at an edge portion on one side of the panel member,
The reinforcement member is combined with the panel member such that the side surface on the narrow side overlaps the rear surface of the edge portion that receives the window glass member, and the edge portion is formed by a box-shaped cross-sectional portion that forms a wide portion of the reinforcement member. The vehicle body structure according to claim 1, wherein the structure is reinforced.

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