JP2015085709A - Roof panel structure for vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a roof panel structure for a vehicle capable of thinning plate thickness, as well as enhancing rigidity without affecting a recess-deformation resistance and NVH (noise/vibration/harshness) performance.SOLUTION: A roof panel structure comprises: a central convex part 20 in a vehicle width direction of a roof panel 2; side convex parts 21 disposed on both sides of the central convex part 20 in a longitudinal direction of a vehicle body; vehicle widthwise step parts 22 disposed between the central convex part 20 and the side convex parts 21 in a longitudinal direction of a vehicle body; and a pair of concave parts 23 formed by the step parts 22 in a longitudinal direction of the roof panel 2, with widths between respective pairs of the concave parts 23 formed so as to get gradually narrower toward the rear end 2b from the front end 2a of the roof panel 2.

Description

  The present invention relates to a vehicle roof panel structure capable of reducing the plate thickness and improving the rigidity.

The roof panel of an automobile has a demand to reduce the plate thickness because it affects the so-called “stickiness” and NVH (noise, vibration, harshness) performance, and is a large part.
Conventionally, measures such as adding a bead shape to the roof panel or adding a cross member from the vehicle interior side are taken in order to ensure betting performance. These countermeasures have a role as NVH countermeasures (see Patent Documents 1, 2, 3, and 4).

JP 2011-136595 A JP 2012-106563 A JP 2010-30465 A JP 2007-15417 A

  When the roof panels are joined by spot welding, deformation (deformation) may occur on the panel surface of the roof side due to the accuracy in manufacturing. As a countermeasure, a bead (step) is added to the roof side. However, if the beads are arranged in parallel, the vibration is amplified by the so-called accordion effect and the NVH performance is affected. Thus, the bead improves the beak performance, but may significantly degrade the low frequency NVH performance. As a method for improving the NVH performance, there is a method in which a member is disposed and reinforced in the vehicle width direction. However, this increases the number of parts and increases mold costs, assembly costs, and weight.

  It is an object of the present invention to provide a vehicle roof panel structure that can reduce the plate thickness and improve the rigidity, and does not affect the beakability and NVH (noise, vibration, harshness) performance. .

In order to solve the above-mentioned problems, the present invention provides a central convex surface portion in the vehicle width direction of the roof panel, and side convex surface portions on both sides of the central convex surface portion in the front-rear direction of the vehicle body, and the central convex surface portion and the side convex surface A step portion in the vehicle width direction is formed between the front and rear sides of the vehicle body, and a width between the pair of concave portions formed in the front and rear direction of the roof panel by the step portion is rearward from the front end portion of the roof panel. It is that it was gradually formed narrower toward the end.
In the present invention, the height of the central convex surface portion sandwiching the stepped portion is formed lower than the height of the side convex surface portion, and the height of the side convex surface portion is closer to the center in the vehicle width direction. That is, it is formed adjacent to the stepped portion.
Further, the present invention is such that the rear portion of the roof panel is inclined obliquely downward toward the rear of the vehicle body, and at least the rear portion of the roof panel has the height at the outer portion of the side convex surface portion. A low position with respect to the position is formed in the longitudinal direction of the vehicle body, and the curvature radius at the high position of the side convex surface is set to be smaller than the curvature radius at the low position.
Still further, the present invention resides in that the pair of concave ridge portions are disposed so as to pass through the vehicle body center side of the rear seat occupant's head center position.

According to the present invention, it is possible to obtain a roof panel structure that can reduce the plate thickness and improve the rigidity and does not affect the beakability and the NVH (noise, vibration, harshness) performance. Further, the curvature radius R ₁ at the high position of the side convex surface portion is set to be smaller than the curvature radius R _{2 at the} low position that becomes the concave surface portion, and the vibration characteristic in the roof is changed to be uniform. Vibration can be made difficult to occur. Furthermore, the pair of concave strips can be disposed so as to pass through the center of the vehicle body relative to the center of the head of the rear seat occupant, thereby ensuring comfort.

It is a perspective view which shows the roof panel structure of the vehicle by embodiment of this invention. It is a top view of FIG. It is the front view seen from the vehicle body front of FIG. It is the side view seen from the side of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
In FIG. 1 to FIG. 4, the roof portion 1 of the vehicle has a groove portion 4 in the front-rear direction, that is, a so-called mohawk shape formed by joining the upper ends of the side body outer panels 3 to both sides of the roof panel 2. A roof side inner member (not shown) is disposed on the inner surface upper side of the side body outer panel 3 to form a roof rail portion, which reinforces the indoor side of the roof portion 1. A front end edge 2a constituting the upper end of the front window frame is formed at the front end of the roof panel 2, and a rear end edge 2b constituting the upper end of the rear window frame is formed at the rear end. Has been.
The roof panel 2 is formed so as to draw a large curved arc in a side view from the front edge 2a to the rear edge 2b, and gradually inclines downward at a gentle inclination angle from the center 2c to the rear 2d. In this way, the aerodynamic performance is improved.

As shown in FIG. 3, the overall shape of the roof panel 2 viewed from the front is a central convex surface portion 20 in the vehicle width direction of the roof panel 2 and left and right sides of the central convex surface portion 20 as shown in FIG. 3. Side convex portions 21 are formed on both sides. The central convex portion 20 and the left and right side convex portions 21 are provided along the front-rear direction of the vehicle body, and a step portion 22 in the vehicle width direction is provided between the central convex portion 20 and the side convex portion 21. Is formed from the front edge 2a to the rear edge 2b in the longitudinal direction of the vehicle body. As shown in FIG. 2, the stepped portion 22 is formed so that the distance between the pair of concave portions 23 gradually decreases from the front to the rear so that a bead-shaped line is formed in the front-rear direction of the roof panel 2. It is formed in an oblique direction. The width m between the pair of concave ridges 23 is gradually narrowed from the front end edge 2a to the rear end edge 2b of the roof panel 2, and is relative to the width m ₁ between the front side concave ridges 23. The width m ₂ between the rear concave portions 23 is formed in the bottom recess so that m ₁ > m ₂ .

On the other hand, as shown in FIG. 3, the height of the central convex surface portion 20 and the side convex surface portion 21 located on both sides in the vehicle width direction across the stepped portion 22 is the both side portions in the vehicle width direction of the central convex surface portion 20. The height h ₁ is lower than the height h ₂ of the side convex surface portion 21 and h ₁ <h ₂ is set, the inclination angle θ of the stepped portion 22 is set, and the side convex surface The highest position 21A of the portion 21 is formed adjacent to the stepped portion 22 toward the center in the vehicle width direction.

As shown in FIG. 3, the roof panel 2 has at least a rear portion 2d of the roof panel 2 at a low position lower than the height position 21A on the outer side in the vehicle width direction of the side convex surface portion 21. the position 21B is formed in the longitudinal direction of the vehicle, the curvature radius R ₁ from the inner surface center of the roof panel 2 at the altitude position 21A of the side convex portion 21, the roof panel 2 at the low-income position 21B as the concave portion R ₁ <R _{2 is} set to be smaller than the radius of curvature R ₂ from the center of the outer surface side.

  2 to 4, the pair of concave strips 23 is set so as to pass through the vehicle body center side of the center position of the head of the passenger in the rear seat.

According to the above-described embodiment, the overall shape of the roof panel 2 viewed from the front is the central convex surface portion 20 in the vehicle width direction of the roof panel 2 and the left and right sides of the central convex surface portion 20 so as to form three peaks. A side convex surface portion 21 is formed on the left and right sides, and the central convex surface portion 20 and the left and right side convex surface portions 21 are provided along the longitudinal direction of the vehicle body. A step 22 in the vehicle width direction is formed between the central convex portion 20 and the side convex portion 21 from the front end edge 2a to the rear end edge 2b in the front-rear direction of the vehicle body. Since the pair of concave portions 23 are formed in an oblique direction so that the distance gradually decreases from the front to the rear so that a bead-shaped line is formed in the front-rear direction of the roof panel 2, aerodynamic characteristics It is possible to obtain a roof panel structure that does not affect the beakability and NVH (noise, vibration, harshness) performance.
The step portion 22 of the roof panel 2 is inclined in such a manner that the pair of concave portions 23 are gradually narrowed from the front to the rear so that a bead-like line is formed in the front-rear direction of the roof panel 2. And the width m between the pair of recesses 23 is gradually narrowed from the front end edge 2a to the rear end edge 2b of the roof panel 2, and the width between the front side recesses 23 is the width m ₂ between the rear-side recessed streak 23 mutual respect m _1, since the formed Subomi butt so that m _1> m _2, deform (deformation) occurs in the panel surface of the roof side There is nothing. Thus, a roof panel structure that does not affect the appearance quality can be obtained. Since the pair of concave portions 23 of the roof panel 2 is composed of step portions 22 provided at two locations, vibration due to low frequencies is not deteriorated, and therefore the curved surface is formed by the two step portions 22.・ High-frequency vibration is improved. Further, since the step portion 22 is provided near the flat surface to improve the rigidity, so-called betting performance is improved. Further, since the front and rear grooves 4 are provided on the roof side of the roof panel 2 to curve the upper panel surface of the side body outer panel 3, spot deformation (deformation) is unlikely to occur.
Still further, the roof panel 2 is formed such that a rear portion of the roof panel 2 is inclined obliquely downward toward the rear of the vehicle body, and an outer portion of the side convex surface portion 21 is formed on the rear portion of the roof panel 2. the lower low-income position 21B as the concave portion formed in the vehicle longitudinal direction with respect to the altitude position 21A, the radius of curvature R ₁ of the altitude position 21A of the side convex portion 21, the concave portion lower offices in since the set smaller than the radius of curvature R ₂ of the position 21B, to change the vibration characteristics of in the roof, it is possible to hardly occur a uniform vibration. At this time, by setting the radius of curvature R ₁ smaller than the radius of curvature R ₂ , the local rigidity of the stepped portion 22 is made larger than the outside of the roof to reduce the vibration at the center of the roof and improve the formability of the roof side portion. Thus, the coupling accuracy with the roof rail can be ensured.
The step portion 22 of the roof panel 2 is inclined in such a manner that the pair of concave portions 23 are gradually narrowed from the front to the rear so that a bead-like line is formed in the front-rear direction of the roof panel 2. The height of the central convex surface portion 20 with the step portion 22 interposed therebetween is formed lower than the height of the side convex surface portion 21, and the height position 21A of the side convex surface portion 21 is located closer to the center in the vehicle width direction. Since it is formed adjacent to the portion 22 and the pair of concave ridge portions 23 are disposed so as to pass through the vehicle body center side of the rear seat occupant's head center position, the comfortability can be ensured. .

Note that the present invention is not limited to the above-described embodiment. For example, in the above-described embodiment, the width m between the pair of concave strip portions 23 is from the front edge portion 2a of the roof panel 2 to the rear. The width m ₂ between the rear-side concave portions 23 is made smaller than the width m ₁ between the front-side concave portions 23 so that m ₁ > m _2. It is formed in a dent. The angle of the bottom dent can be arbitrarily set by changing the ratio of m ₁ > m ₂ . Further, in the above embodiment, the height of the central convex portion 20 located at both sides in the vehicle width direction across the step portion 22 the side projection surface 21, the height h ₁ of the central convex portion 20 The height is lower than the height h ₂ of the side convex surface portion 21 and h ₁ <h ₂ , but the height of the central convex surface portion 20 in the vehicle width direction is set to h ₁ to form a step. Needless to say, the height of the portion 22 may be set so as to satisfy h ₁ <h _2, and the like, as long as the technical scope of the present invention is not changed.

DESCRIPTION OF SYMBOLS 1 Roof part 2 Roof panel 2a Front end part 2b Rear end part 3 Side body outer panel 4 Groove part 20 Central convex part 21 Side convex part 21A High place 21B Low part 22 Step part 23 Convex part

Claims (4)

  A central convex surface portion in the vehicle width direction of the roof panel, and side convex surface portions on both sides of the central convex surface portion are provided in the front-rear direction of the vehicle body, and a step portion in the vehicle width direction is provided between the central convex surface portion and the side convex surface portion. Is formed in the longitudinal direction of the vehicle body, and the width between the pair of concave portions formed in the longitudinal direction of the roof panel by the stepped portion is gradually narrowed from the front end portion to the rear end portion of the roof panel. Vehicle roof panel structure.   The height of the central convex surface portion sandwiching the step portion is formed lower than the height of the side convex surface portion, and the height position of the side convex surface portion is adjacent to the step portion closer to the center in the vehicle width direction. The roof panel structure for a vehicle according to claim 1, wherein the roof panel structure is formed.   The rear portion of the roof panel is formed to be inclined obliquely downward toward the rear of the vehicle body, and at least at the rear portion of the roof panel, the outer portion of the side convex surface portion is lower than the height position. The vehicle roof panel according to claim 2, wherein a location position is formed in a longitudinal direction of the vehicle body, and a curvature radius at a high location of the side convex surface portion is set smaller than a curvature radius at a low location. Construction.   The vehicle roof panel according to any one of claims 1 to 3, wherein the pair of concave portions are arranged so as to pass through the vehicle body center side with respect to the center position of the head of the rear seat occupant. Construction.

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