JP4751856B2 - Body side structure - Google Patents

Description

  The present invention relates to a vehicle body side structure having a front pillar provided along a side edge of a windshield, a sub pillar extending downward from the front pillar, and a corner glass disposed on the front side of the sub pillar. It is about.

Front pillars in vehicles are important structural members that affect vehicle body rigidity and collision safety performance, and are widely adopted to have a closed cross section with an outer panel and an inner panel joined by flanges on both sides across a stiffener. In particular, there is known a structure in which two ridge lines extending in the longitudinal direction are formed on a stiffener to increase the strength against axial force (see Patent Document 1). According to this, at the time of the frontal collision of the vehicle, the collision load is reliably transmitted from the front upper member to the roof rail via the front pillar, so that the collision safety performance can be improved.
Japanese Patent No. 3074643

  However, in a vehicle having a sub-pillar branched from the middle part of the front pillar and extending downward, and a corner glass is disposed on the front side of the sub-pillar, a portion of the corner glass on the front side of the sub-pillar is While the upper edge is fixed, the door sash is located below the front pillar at the rear side of the sub-pillar, so it is difficult to uniformly form the cross-sectional shape of the front pillar. The branch part of the sub-pillar whose shape changes becomes a weak point in strength.

  In particular, in the structure having the above-described sub-pillar, since the mounting surface for fixing the corner glass is conventionally set to the flange portion of the outer panel, the front pillar and the corner glass are improved in order to improve the aerodynamic characteristics and appearance. If the flash surface is made to be substantially flush with the outer surface of the metal, it will be difficult to form a stiffener in a cross-sectional shape having two ridge lines due to the restriction of the position of the flange, ensuring the required strength Therefore, there is a disadvantage that the manufacturing process becomes complicated.

  The present invention has been devised to solve such problems of the prior art, and its main purpose is that the branching portion of the sub-pillar where the cross-sectional shape of the front pillar changes becomes a weak point in strength. It is an object of the present invention to provide a vehicle body side structure configured to prevent the above-described problem and increase the strength against the axial force of the front pillar.

  In order to solve such a problem, according to the present invention, as shown in claim 1, the front pillar (1) provided along the side edge of the windshield (3) and the front pillar are branched. In the vehicle body side structure having a sub pillar (2) extending downward and a corner glass (4) disposed on the front side of the sub pillar, the front pillar includes an outer panel (11), a stiffener (12), And the inner panel (13) are joined by joints (14 to 19) located inside the peripheral edges of the windshield and corner glass to form a closed cross-sectional shape, and on the front side of the sub pillar, A step portion (23) provided with a mounting surface (24) to which a peripheral edge portion of the corner glass is fixed in the vicinity of the joint portion (17) on the corner glass side. The stiffener is formed with two ridge lines (34, 35) extending in the longitudinal direction so that one of the ridges (35) is located inside the stepped portion of the outer panel. The two ridge line portions formed at the front side portion from the sub pillar were respectively connected to the two ridge line portions (39, 40) formed at the rear side portion from the sub pillar.

  According to this, the stiffener is provided with two ridges in a continuous state before and after the sub-pillar, and the amount of change in the cross-section at the sub-pillar branch can be kept small. Since the strength against the axial force of the front pillar can be increased, the collision safety performance can be improved.

  Further, since the outer panel is provided with a step portion having a mounting surface to which the corner glass is fixed, the outer panel and the outer surface of the corner glass can be made substantially flush by forming the mounting surface at an appropriate height position. it can. In addition, the width of the stepped portion can be narrowed within the range required for fixing the corner glass, so the width of the black ceramic coating on the peripheral edge of the corner glass is reduced to ensure a wide field of view. can do. In addition, since it is only necessary to form a step portion on the outer panel, the moldability of the outer panel need not be lowered.

  In the vehicle body side part structure, as shown in claim 2, a flange portion in which the joint portions of the outer panel, the stiffener, and the inner panel are extended in a direction along the windshield and the corner glass and overlap each other ( 14-19), and the stiffener extends from the windshield side flange portion (15) to form the windshield side ridge line portions (34, 39) (31, 36). It can be set as the structure formed so that it might extend in the direction in alignment with the extension direction of the said flange part by the side of the said windshield.

  According to this, the degree of freedom in the assembly direction of the outer panel is improved, and interference between the stiffener and the outer panel can be avoided even when the outer panel is assembled in a direction substantially parallel to the extending direction of the flange portion. improves.

  Furthermore, the position of the ridge line part on the windshield side is defined by the front wall part, but the front wall part has a substantially identical front and rear direction from the front pillar side flange part, The ridge line part on the glass side extends in the direction along the side edge part of the windshield, and is formed in a gently curved state corresponding to the side edge part of the windshield, improving the load transmission efficiency Can be made.

  As described above, according to the present invention, the stiffener is provided with the two ridge line portions continuous before and after the sub-pillar, and the cross-sectional change amount at the sub-pillar branch portion can be suppressed to be small. It is possible to prevent a weak point in strength and increase the strength against the axial force of the front pillar, and a great effect is obtained in improving the collision safety performance.

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

  FIG. 1 is a side view showing a vehicle body of an automobile to which a vehicle body side part structure according to the present invention is applied. The vehicle body has a sub-pillar 2 that branches downward from an intermediate portion of the front pillar 1 and extends substantially vertically. A windshield 3 is attached between the left and right front pillars 1, and a substantially triangular corner glass 4 is attached below the front pillar 1 in front of the sub pillar 2 so as not to be opened and closed. On the other hand, a door sash 7 serving as a frame of a door glass 6 provided to be openable and closable on the door 5 is located below a portion of the front pillar 1 on the rear side of the sub pillar 2.

  2 is a cross-sectional view of the front pillar taken along line II-II shown in FIG. FIG. 3 is a cross-sectional view of the front pillar cut along line III-III shown in FIG. FIG. 4 is a cross-sectional view of the outer panel shown in FIGS. FIG. 5 is a side view of the stiffener shown in FIGS.

  The front pillar 1 includes an outer panel 11, a stiffener 12 whose outer surface is covered by the outer panel 11, and an inner panel 13 inside the stiffener 12. A closed section skeleton is formed. The outer panel 11, the stiffener 12, and the inner panel 13 are formed by press forming of a steel plate.

  The outer panel 11, the stiffener 12, and the inner panel 13 are flange portions (joint portions) 14 to 16 positioned inside the peripheral edge portion of the windshield 3, and flange portions (joint portions) positioned inside the peripheral edge portion of the corner glass 4. ) 17-19, the flange portions 14-16 on the windshield 3 side are extended in a direction along the windshield 3 and overlapped with each other, and the flange portions 17-16 on the corner glass 4 and door glass 6 side are overlapped with each other. 19 are extended in the direction along the corner glass 4 and the door glass 6, are overlapped with each other, and are joined by spot welding.

  The front glass 3 is fixed to the front pillar 1 by adhering the inner surface of the peripheral edge portion and the flange portion 14 of the outer panel 11 with an adhesive 52. A seal 51 is attached to the outer edge of the windshield 3.

  As shown in FIG. 2, the outer panel 11 has a corner glass 4 on the front side of the sub pillar 2 through a side wall portion 21, a front wall portion 22, and a stepped wall portion (step portion) 23 from the flange portion 14 on the windshield 3 side. The stepped wall portion 23 is formed so as to reach the flange portion 17 on the side, has a substantially Z-shaped cross section, and is mounted substantially parallel to the corner glass 4 to fix the peripheral edge of the corner glass 4 It has a portion 23a and step portions 23b and 23c on both sides thereof.

  The corner glass 4 is fixed to the front pillar 1 by adhering the inner surface of the peripheral portion thereof and the mounting surface 24 of the mounting portion 23a of the outer panel 11 with an adhesive 54, and the mounting portion 23a is formed at an appropriate position. By doing so, the front wall part 22 and the outer surface of the corner glass 4 can be made substantially flush. A black ceramic print layer 55 is formed on the inner surface of the peripheral edge of the corner glass 4. A seal 53 is attached to the outer edge of the corner glass 4.

  Further, as shown in FIG. 3, the outer panel 11 is disposed on the rear side of the sub pillar 2 from the flange portion 14 on the windshield 3 side through the side wall portion 25, the front wall portion 26, and the stepped wall portion 27. The outer weather strip 62 provided on the door sash 7 is in contact with the stepped wall portion 27. The door sash 7 is provided with a glass run channel 63, and an inner weather strip 64 is fixed to the flange portions 17-19.

  As shown in FIG. 2, the stiffener 12 is provided on the front side of the sub pillar 2 from the flange portion 15 on the windshield 3 side to the flange portion 18 on the corner glass side through the front wall portion 31, the side wall portion 32, and the rear wall portion 33. The front wall portion 31 is formed so as to extend in a direction substantially along the extending direction of the flange portion 15 on the windshield 3 side.

  Moreover, the front wall part 31, the side wall part 32, and the rear wall part 33 are formed in a state protruding sideways so as to form a substantially U-shaped cross section as a whole, and the connection between the front wall part 31 and the side wall part 32 is made. At the position, a first ridge line portion 34 is formed, which is located inside the front wall portion 22 of the outer panel 11 and extends in the longitudinal direction. At the connection position between the side wall portion 32 and the rear wall portion 33, the outer panel 11 A second ridge line portion 35 is formed which is located inside the stepped wall portion 23 and extends in the longitudinal direction. The second ridge line portion 35 is provided in the vicinity of the attachment portion 23a of the stepped wall portion 23 of the outer panel 11. The attachment portion 23a and the second ridge line portion 35 are electrodeposited between the two. The gaps are provided so as to ensure a gap through which the coating liquid flows smoothly.

  Further, as shown in FIG. 3, the stiffener 12 is arranged on the rear side of the sub pillar 2 from the flange portion 15 on the windshield 3 side through the front wall portion 36, the side wall portion 37, and the rear wall portion 38 on the door glass 6 side. It is formed so as to reach the flange portion 18, and the front wall portion 36 extends in a direction substantially along the extending direction of the flange portion 15 on the windshield 3 side, like the portion on the front side of the sub pillar 2. Is formed.

  Further, the front wall portion 36, the side wall portion 37, and the rear wall portion 38 are formed so as to protrude sideways so as to form a substantially U-shaped cross section as a whole, similarly to the front side portion of the sub pillar 2. A first ridge line portion 39 that is located inside the front wall portion 26 of the outer panel 11 and extends in the longitudinal direction is formed at a connection position between the wall portion 36 and the side wall portion 37, and the side wall portion 37 and the rear wall portion are formed. Similarly, a second ridge line portion 40 is formed at the connection position with 38 and extends in the longitudinal direction and is located inside the front wall portion 26 of the outer panel 11.

  In the stiffener 12, as described above, the front wall portions 31 and 36 are formed so as to extend in a direction substantially along the extending direction of the flange portion 15 on the windshield 3 side. As shown in (B), even when the outer panel 11 is assembled to the stiffener 12 in a direction substantially parallel to the extending direction of the flange portion 15, interference with the stiffener 12 can be avoided.

  Further, in this stiffener 12, as shown in FIG. 5, the first ridge line part 34 in the front part of the sub pillar 2 and the first ridge line part 39 in the rear part of the sub pillar 2 are in a state of being continuous with each other. The second ridge line portion 35 in the front portion of the sub pillar 2 and the second ridge line portion 40 in the rear portion of the sub pillar 2 are also formed in a continuous state.

  In particular, the positions of the upper first ridge line portions 34 and 39 are defined by the front wall portions 31 and 36, and the front wall portions 31 and 36 have an extending direction from the flange portion 15 on the windshield 3 side. Since it becomes substantially the same before and after the sub pillar 2, the upper first ridge line portions 34 and 39 extend in the direction along the side edge of the windshield 3 and correspond to the side edge of the windshield 3. Therefore, the load transmission efficiency can be improved. On the other hand, the lower second ridge line portions 35 and 40 are formed in a state of being slightly shifted up and down across an inflection point in the vicinity of the sub pillar 2.

  As shown in FIG. 2, the inner panel 13 is formed so as to reach the flange 19 on the corner glass 4 side from the flange 16 on the front glass 3 side through the side wall 45 and the rear wall 46 on the front side of the sub pillar 2. The side wall portion 45 and the rear wall portion 46 are formed in a shape that bulges toward the inner side of the vehicle body so as to form a substantially square-shaped cross section as a whole.

  Further, as shown in FIG. 3, the inner panel 13, on the rear side of the sub-pillar 2, passes through the side wall portion 47 and the rear wall portion 48 from the flange portion 16 on the windshield 3 side in the same manner as the front portion of the sub-pillar 2. The side wall portion 47 and the rear wall portion 48 are formed in a shape that bulges toward the inside of the vehicle body so as to form a substantially square-shaped cross section as a whole. Has been.

  As described above, in the stiffener 12, the first ridge line portions 34 and 39 and the second ridge line portions 35 and 40 are formed in a continuous state before and after the sub-pillar 2, so that the strength against the axial force of the front pillar 1 is increased. Furthermore, since the closed cross-sectional space S defined by the stiffener 12 and the inner panel 13 has a substantially constant cross-sectional area in the longitudinal direction, it is possible to achieve a substantially uniform strength in the longitudinal direction.

It is a side view which shows the vehicle body of the motor vehicle to which the vehicle body side part structure by this invention is applied. It is sectional drawing of the front pillar cut | disconnected by the II-II line | wire shown in FIG. It is sectional drawing of the front pillar cut | disconnected by the III-III line | wire shown in FIG. FIG. 4 is a cross-sectional view of the outer panel assembly state shown in FIGS. 2 and 3. FIG. 4 is a side view of the stiffener shown in FIGS. 2 and 3.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Front pillar 2 Sub pillar 3 Front glass 4 Corner glass 11 Outer panel 12 Stiffener 13 Inner panels 14-19 Flange part 23 Stepped wall part (step part)
24 Mounting surface 34/39 First ridge line part 35/40 Second ridge line part S

Claims (2)

A vehicle body side structure having a front pillar provided along the side edge of the windshield, a sub pillar branched from the front pillar and extended downward, and a corner glass disposed on the front side of the sub pillar. There,
The front pillar is formed in a closed cross-sectional shape by joining an outer panel, a stiffener, and an inner panel at a joint located inside each peripheral edge of the windshield and corner glass,
In front of the sub pillar, in the vicinity of the joint portion on the corner glass side of the outer panel, a step portion having a mounting surface to which a peripheral edge portion of the corner glass is fixed is provided, and the stiffener is extended in the longitudinal direction. Forming two existing ridges so that one of them is located inside the step of the outer panel;
A vehicle body side structure in which two ridge lines formed in a front part of a sub pillar in the stiffener are respectively connected to two ridge lines formed in a rear part of the sub pillar. Each of the outer panel, stiffener, and inner panel joining portions is a flange portion that extends in a direction along the windshield and the corner glass and overlaps each other.
A front wall portion that extends from the flange portion on the windshield side in the stiffener and forms the ridge line portion on the windshield side extends in a direction substantially along the extending direction of the flange portion on the windshield side. The vehicle body side part structure according to claim 1, wherein the vehicle body side part structure is formed to exist.

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