JP2007186034A - Instrument panel reinforcement structure - Google Patents

Abstract

An object of the present invention is to suppress the occurrence of cracks at a joint between a cylindrical member and a cylindrical member.
In an instrument panel reinforcement structure, a load is transmitted from a vehicle front side to a reinforcement 12 via a cowl coupling brace 22, and a vehicle front side to the reinforcement 12 via an NV brace 24. When the load is not transmitted from, the joint portion 20 of the large diameter cylinder 16 and the small diameter cylinder 18 of the reinforcement 12 is greatly bent and deformed. Here, since the substantially vehicle front side portion of the connecting portion 20 is a welded portion, and the substantially vehicle rear side portion of the connecting portion 20 is a non-welded portion, the load transmitted to the reinforcement 12 is applied to the rain force. Dispersion in the longitudinal direction of the reinforcement 12 can suppress the occurrence of cracks in the joint portion 20 of the reinforcement 12.
[Selection] Figure 1

Description

  The present invention relates to an instrument panel reinforcement structure in which a plurality of tubular members are coupled in the longitudinal direction to form an instrument panel reinforcement.

  As an instrument panel reinforcement structure, there is one in which one end of one member and one end of the other member are integrally joined to each other to form an instrument member member (see, for example, Patent Document 1). ).

However, in this instrument panel reinforcement structure, when a load from the front of the vehicle is transmitted to the instrument member member, depending on the bending mode of the instrument member member due to the load, there is a problem between one member and the other member. Cracks may occur at the joint.
JP-A-8-132923

  In view of the above fact, the present invention aims to obtain an instrument panel reinforcement structure capable of suppressing the occurrence of cracking at the joint between the cylindrical member and the cylindrical member constituting the instrument panel reinforcement. is there.

  The instrument panel reinforcement structure according to claim 1 is configured by combining a plurality of cylindrical members in a longitudinal direction and having both ends coupled to a vehicle body, and the instrument panel reinforcement. A load transmitting means capable of transmitting a load from the front side of the vehicle to the vehicle, and a rear portion of at least one of the coupling portion between the cylindrical member and the cylindrical member and the side portion of the coupling portion on the instrument panel reinforcement. Load distribution means provided at a side portion for distributing the load from the vehicle front side transmitted by the load transmission means in the longitudinal direction of the instrument panel reinforcement.

  The instrument panel reinforcement structure according to claim 2 is the instrument panel reinforcement structure according to claim 1, wherein the instrument panel reinforcement has a connecting portion between the tubular member and the tubular member. The load transmitting means is coupled on both sides in the vehicle width direction.

  The instrument panel reinforcement structure according to claim 3 is the instrument panel reinforcement structure according to claim 1 or 2, wherein the cylinder member and the cylinder member are coupled as the load distribution means. It is characterized in that the coupling strength of the part is lower in the rear part of the vehicle than in the front part of the vehicle.

  The instrument panel reinforcement structure according to claim 4 is the instrument panel reinforcement structure according to any one of claims 1 to 3, wherein the diameter of the one cylindrical member is set to the other of the instrument panel reinforcement structures. The diameter of the cylindrical member is larger than the diameter of the cylindrical member, the reduced diameter portion is provided on the one cylindrical member, the reduced diameter portion is welded to the other cylindrical member, and the load distribution means is provided. The non-welded portion is ¼ or more of the entire circumference of the coupling portion between the one cylindrical member and the other cylindrical member.

  In the instrument panel reinforcement structure according to claim 1, a plurality of tubular members are coupled in the longitudinal direction to form an instrument panel reinforcement, and both ends of the instrument panel reinforcement are coupled to the vehicle body. Has been. Furthermore, the load transmission means can transmit the load from the vehicle front side to the instrument panel reinforcement.

  Here, the joint portion between the tubular member and the tubular member in the instrument panel reinforcement and the side portion of the joint portion (for example, if there is no load distribution means, the load is transmitted to the instrument panel reinforcement by the load transmitting means). The load distribution means provided in at least one vehicle rear side portion (range around the coupling portion that is deformed by the load from the vehicle front side) transmits the load from the vehicle front side transmitted by the load transmission means to the instrument panel rain. Disperse in the longitudinal direction of the force. For this reason, it can suppress that a crack generate | occur | produces in the junction part of a cylinder member and a cylinder member in an instrument panel reinforcement.

  In the instrument panel reinforcement structure according to the second aspect, the load transmission means is coupled to the instrument panel reinforcement on both sides in the vehicle width direction of the coupling portion between the tubular member and the tubular member. For this reason, the load from the front side of the vehicle is transmitted by one load transmission means, and the connecting portion of the instrument panel reinforcement with one load transmission means is moved to the rear side of the vehicle, while the other load transmission means Even when the load from the front side of the vehicle is not transmitted and the movement of the connecting portion of the instrument panel reinforcement with the other load transmission means to the rear side of the vehicle is suppressed, the vehicle front side transmitted by one load transmission means The load dispersing means disperses the load from the longitudinal direction of the instrument panel reinforcement, so that it is possible to suppress the occurrence of cracks in the joint portion between the tubular member and the tubular member in the instrument panel reinforcement.

  In the instrument panel reinforcement structure according to the third aspect, as the load distribution means, the coupling strength of the coupling portion between the cylindrical member and the cylindrical member is lower in the vehicle rear side portion than in the vehicle front side portion. For this reason, the coupling portion between the tubular member and the tubular member can be extended relative to the vehicle front side portion at the vehicle rear side portion, and the load from the vehicle front side transmitted by the load transmitting means is the longitudinal direction of the instrument panel reinforcement. Can be dispersed in the direction.

  In the instrument panel reinforcement structure according to claim 4, the diameter of one cylindrical member is made larger than the diameter of the other cylindrical member, and a reduced diameter portion is provided on one cylindrical member. Thus, the reduced diameter portion and the other cylindrical member are welded.

  Here, the load distribution means is a non-welded portion at a quarter or more of the entire circumference of the joint portion between one cylindrical member and the other cylindrical member, and this non-welded portion is not welded and Since there is no influence of thermosetting by welding, it can be satisfactorily extended. For this reason, with a simple structure, it is possible to allow the coupling portion between the one cylindrical member and the other cylindrical member to extend relative to the vehicle front side portion at the vehicle rear side portion.

  FIG. 1 is a perspective view of an instrument panel reinforcement structure 10 according to an embodiment of the present invention as viewed obliquely from the rear upper side of a vehicle. In the drawings, the front side of the vehicle is indicated by an arrow FR, and the lower side is indicated by an arrow DW.

  A vehicle to which the instrument panel reinforcement structure 10 according to the present embodiment is applied is a left-hand drive vehicle. A driver's seat (not shown) is provided on the left side of the vehicle, and a passenger seat is provided on the right side of the vehicle. (Not shown) is provided.

  The instrument panel reinforcement structure 10 includes a long and substantially cylindrical reinforcement 12 as an instrument panel reinforcement. The reinforcement 12 extends in the vehicle width direction and has both ends. Is supported by a plate-like support bracket 14. The support bracket 14 is fixed to a front pillar (not shown) on the vehicle body side, whereby both ends of the reinforcement 12 are coupled to the inside in the vehicle width direction of the pair of front pillars.

  The reinforcement 12 is disposed in an instrument panel (not shown) on the vehicle body side, and the instrument panel is disposed on the vehicle front side of the driver seat and the passenger seat.

  The vehicle left side portion of the reinforcement 12 is a substantially cylindrical large diameter cylinder 16 as a cylindrical member, and the portion other than the vehicle right side portion of the large diameter cylinder 16 is a cylindrical general portion 16A. A frustum-shaped cylindrical truncated cone part 16B is formed on the right side of the large diameter cylinder 16 continuously to the general part 16A, and the diameter of the truncated cone part 16B is gradually reduced toward the right side of the vehicle. Yes. A cylindrical small diameter portion 16C as a reduced diameter portion is formed at the right end of the large diameter cylinder 16 continuously to the truncated cone portion 16B. The small diameter portion 16C has a diameter smaller than that of the general portion 16A. Have been small. The outer diameter of the general portion 16A of the large diameter cylinder 16 is, for example, 70 mm.

  The vehicle right side portion of the reinforcement 12 is formed into a cylindrical small diameter cylinder 18 as a cylindrical member, and the vehicle left end portion of the small diameter cylinder 18 is fitted into the small diameter portion 16C of the large diameter cylinder 16. In this state, the large-diameter tube 16 and the small-diameter tube 18 are coupled in the longitudinal direction by being coupled to the small-diameter portion 16C (hereinafter, this coupled portion is referred to as “coupled portion 20”) (see FIG. 2). Note that the outer diameter of the small diameter cylinder 18 is, for example, 38.1 mm.

  As shown in detail in FIG. 3, the small diameter portion 16 </ b> C of the large diameter tube 16 and the small diameter tube 18 are coupled by C-shaped welding (arc welding), and the small diameter portion 16 </ b> C and the small diameter tube 18 are connected to each other. A substantially vehicle front side portion of the coupling portion 20 is a welded portion 20A, and a substantially vehicle rear side portion of the coupling portion 20 between the small diameter portion 16C and the small diameter cylinder 18 (at least 1/4 of the entire circumference of the coupling portion 20). The portion) is a non-welded portion 20B as a load distribution means, and the coupling strength between the small diameter portion 16C and the small diameter cylinder 18 is lower in the vehicle rear side portion than in the vehicle front side portion. Further, the center of the non-welded portion 20B in the circumferential direction of the coupling portion 20 is disposed at the maximum load portion 20C in the vehicle rear side portion and the upper portion of the coupling portion 20, and the maximum load portion 20C is assumed to be the small diameter portion 16C. When the joint portion 20 with the small diameter cylinder 18 is welded in the entire circumference, when the load is input to the reinforcement 12 from the front side of the vehicle, the circumferential portion of the joint portion 20 where the maximum load (extension stress) acts. It is. The length of the welded portion 20A along the outer periphery of the small diameter cylinder 18 is set to 70 mm ± 10 mm, for example.

  A proximal end of a cowl coupling brace 22 as a load transmitting means is coupled to the reinforcement 12 at a general portion 16A in the longitudinal center of the large diameter cylinder 16, and the cowl coupling brace 22 is extended forward of the vehicle, The front end is coupled (fastened) to a cowl (not shown) on the vehicle body side.

  The reinforcement 12 is coupled to the proximal end of an NV brace 24 (noise vibration suppression brace) as a load transmitting means at the longitudinal center of the small diameter cylinder 18. The front end is coupled (fastened) to a coupling portion with a cowl of a dash panel (not shown) on the vehicle body side. The NV brace 24 is provided in order to suppress the occurrence of a muffled sound in the vehicle interior if the cowl rigidity is lowered.

  At the center in the longitudinal direction of the reinforcement 12, the base ends of the pair of floor coupling braces 26 are coupled to the truncated cone portion 16B of the large diameter cylinder 16 and the left side portion of the vehicle from the NV brace 24 of the small diameter cylinder 18. The floor coupling brace 26 extends obliquely downward from the rear of the vehicle, and the front end is coupled (fastened) to both sides in the vehicle width direction of the convex tunnel portion on the floor (not shown) on the vehicle body side.

  Next, the operation of the present embodiment will be described.

  In the instrument panel reinforcement structure 10 having the above configuration, as shown in FIG. 4, at the time of a frontal collision only on the left side of the vehicle (offset frontal collision), the front side of the vehicle from the cowl to the reinforcement 12 via the cowl coupling brace 22. The load from the vehicle front side is not transmitted from the dash panel to the reinforcement 12 via the NV brace 24. For this reason, the joint portion of the reinforcement 12 with the cowl joint brace 22 is moved to the vehicle rear side, and the movement of the joint portion of the reinforcement 12 with the NV brace 24 to the vehicle rear side is suppressed, The reinforcement 12 is greatly bent and deformed at the joint portion 20 between the small diameter portion 16 </ b> C of the large diameter tube 16 and the small diameter tube 18.

  Here, a substantially vehicle front side portion of the coupling portion 20 between the small diameter portion 16C and the small diameter cylinder 18 is a welded portion 20A, and a substantial vehicle rear side of the coupling portion 20 between the small diameter portion 16C and the small diameter cylinder 18 is used. The portion is a non-welded portion 20B, and the coupling strength between the small diameter portion 16C and the small diameter cylinder 18 is lower in the vehicle rear side portion than in the vehicle front side portion. For this reason, the coupling portion 20 between the small diameter portion 16C and the small diameter cylinder 18 can extend relative to the vehicle front side portion at the vehicle rear side portion (elastic bending deformation is possible), and the reinforcement is formed via the cowl coupling brace 22. The load from the vehicle front side transmitted to the vehicle 12 is dispersed in the longitudinal direction of the reinforcement 12. Thereby, it can suppress that the crack (break) generate | occur | produces in the reinforcement 12 in the connection part 20. FIG.

  Furthermore, the non-welded portion 20B of the joint portion 20 between the small diameter portion 16C and the small diameter cylinder 18 is not welded and is not affected by thermosetting by welding, so that it can be satisfactorily extended. For this reason, with a simple structure, the coupling portion 20 between the small diameter portion 16C and the small diameter cylinder 18 can be extended relative to the vehicle front side portion at the vehicle rear side portion.

  In the present embodiment, the non-welded portion 20B is provided as a load distribution means in the joint portion 20 between the small diameter portion 16C and the small diameter cylinder 18, but the small diameter portion 16C and the small diameter cylinder 18 Instead of the non-welded portion 20B, the load distribution means (the connecting portion 20 (the vehicle width direction side portion of the connecting portion 20) may be used instead of the non-welded portion 20B. As a stretching means that partially stretches when a load is input), a bead (concave portion or convex portion) may be provided along the circumferential direction. In this case, the entire circumference of the coupling portion 20 may be welded.

1 is a perspective view showing an instrument panel reinforcement structure according to an embodiment of the present invention, as viewed obliquely from above and behind a vehicle. It is a perspective view which shows the coupling | bond part of the small diameter part of a large diameter cylinder, and a small diameter cylinder in the instrument panel reinforcement structure which concerns on embodiment of this invention. FIG. 3 is a cross-sectional view (cross-sectional view taken along line 3-3 in FIG. 1) illustrating a joint portion between a small diameter portion of a large diameter cylinder and a small diameter cylinder in the instrument panel reinforcement structure according to the embodiment of the present invention. It is the perspective view seen from the vehicle rear diagonal upper direction which shows the time of the vehicle left front collision in the instrument panel reinforcement structure which concerns on embodiment of this invention.

Explanation of symbols

10 Instrument Panel Reinforcement Structure 12 Reinforcement (Instrument Panel Reinforcement)
16 diameter large cylinder (cylinder member)
16C Small diameter part (reduced diameter part)
18 diameter small cylinder (cylinder member)
20 joint 20B non-welded part (load distribution means)
22 Cowl coupling brace (load transmission means)
24 NV brace (load transmission means)

Claims (4)

An instrument panel reinforcement in which a plurality of cylindrical members are coupled in the longitudinal direction and both ends are coupled to the vehicle body;
Load transmitting means capable of transmitting a load from the front side of the vehicle to the instrument panel reinforcement;
The instrument panel reinforcement is provided at a vehicle rear side portion of at least one of a coupling portion between the cylindrical member and the cylindrical member and a side portion of the coupling portion, and is transmitted from the vehicle front side transmitted by the load transmission means. Load distribution means for distributing a load in the longitudinal direction of the instrument panel reinforcement;
Instrument panel reinforcement structure with   2. The instrument panel reinforcement structure according to claim 1, wherein the load transmission means is coupled to the instrument panel reinforcement on both sides in the vehicle width direction of the coupling portion between the tubular member and the tubular member. .   The instrument according to claim 1 or 2, wherein, as the load distribution means, the coupling strength of the coupling portion between the cylindrical member and the cylindrical member is lower in the vehicle rear side portion than in the vehicle front side portion. Reinforcement panel reinforcement structure. The diameter of the one cylindrical member is made larger than the diameter of the other cylindrical member, and a reduced diameter portion is provided on the one cylindrical member so that the reduced diameter portion and the other cylindrical member are Welded and joined
And the said load distribution means was made into the non-welding part in 1/4 or more of the perimeter of the joint part of said one cylindrical member and said other cylindrical member,
The instrument panel reinforcement structure according to any one of claims 1 to 3, wherein the instrument panel reinforcement structure is provided.

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