JP6761012B2 - Front subframe structure - Google Patents

Description

The present invention relates to a front subframe structure arranged in front of the vehicle.

For example, Patent Document 1 discloses a structure in which the front subframe is dropped below the vehicle body floor by controlling the deformation mode of the front side frame at the time of a frontal collision.

Further, Patent Document 2 discloses a structure in which a stay for connecting the rear end of the front side frame and the rear mount of the vertical frame is provided. In the structure disclosed in Patent Document 2, the rear portion of the vertical frame is prevented from coming off at the time of a collision and interfering with a member arranged behind the vertical frame.

Japanese Patent No. 5460684 Japanese Patent No. 5134324

By the way, it is conceivable to apply the stay disclosed in Patent Document 2 to the detached structure of the front subframe disclosed in Patent Document 1 to improve the rigidity and strength of the front subframe.

However, when the stay of Patent Document 2 is attached to the detached structure of the front subframe disclosed in Patent Document 1, the stay may hinder the detachment of the front subframe.

The present invention has been made in view of the above points, and is capable of harmonizing (combining) both the detachment of the front subframe at the time of a collision and the improvement of the rigidity and strength of the front subframe. The purpose is to provide a frame structure.

In order to achieve the above object, the present invention is a front subframe having a pair of left and right vertical members extending in the front-rear direction of the vehicle and a cross member extending along the vehicle width direction between the pair of left and right vertical members. A pair of left and right brackets for connecting the vehicle rear end portion of each vertical member and the vehicle body side member are provided, and each bracket has a first fastening portion to be fastened to each vertical member and the vehicle body side member. The bracket is attached to at least one of the first fastening portion and the second fastening portion from the first fastening portion or the second fastening portion when a vehicle collides with the second fastening portion. A drop-off promoting portion for promoting falling off is provided , and further, a pair of braces that hang between the pair of left and right vertical members in a striking shape is provided, and the second fastening portion is a virtual extension of the axis of each brace. It is characterized by being arranged on a line .

In the present invention, it is possible to obtain a front subframe structure capable of harmonizing (combining) both the detachment of the front subframe at the time of a collision and the improvement of the rigidity and strength of the front subframe.

It is a perspective view which looked at the front part of the vehicle which incorporated the front subframe which concerns on embodiment of this invention from diagonally above. It is a bottom view of the front subframe shown in FIG. It is an enlarged bottom view of the part E shown in FIG. It is an enlarged arrow view seen from the arrow X direction of FIG. It is a vertical cross-sectional view along the VV line of FIG. It is an end view along the VI-VI line of FIG.

Next, an embodiment of the present invention will be described in detail with reference to the drawings as appropriate. FIG. 1 is a perspective view of the front portion of the vehicle in which the front subframe according to the embodiment of the present invention is incorporated, as viewed from diagonally above, and FIG. 2 is a bottom view of the front subframe shown in FIG. In each figure, "front and rear" indicates the vehicle front and rear direction, "left and right" indicates the vehicle width direction (left and right direction), and "up and down" indicates the vehicle vertical direction (vertical vertical direction).

As shown in FIG. 1, a front subframe 10 according to an embodiment of the present invention is arranged at the front portion of the vehicle. The front subframe 10 is attached to the lower side of a pair of left and right front side frames 12 and 12 (see FIG. 2) extending along the front-rear direction of the vehicle. Further, the front subframe 10 supports a suspension device for front wheels (not shown) and a power unit (a drive source such as a motor or an engine) via a mount mechanism (not shown).

The vehicle rear ends 12a and 12a of the pair of left and right front side frames 12 and 12 are connected to the vehicle front portions 22a and 22a of the pair of left and right outriggers (vehicle body side members) 22 and 22 (see FIG. 2). ..

As shown in FIG. 1, the front subframe 10 includes a pair of left and right vertical members 16 and 16, a cross member 18, and a pair of braces 20 and 20. The cross member 18 extends along the vehicle width direction between the pair of left and right vertical members 16 and the central portion of the 16 members.

The pair of left and right vertical members 16, 16 extend substantially along the vehicle front-rear direction. The vehicle front end portion 16a of each vertical member 16 is connected to the front side frame 12 via a connecting frame 17 (see FIG. 5) extending upward. The vehicle rear end 16b of each vertical member 16 is connected to the vehicle front end 14a of the floor panel 14.

The front subframe 10 has a substantially H-shape in a plan view due to the pair of left and right vertical members 16, 16 and the cross member 18 (see FIG. 2). Further, the vehicle front end portion 16a of each vertical member 16 is provided in a front opening state located outside the vehicle rear end portion 16b of each vertical member 16 in the vehicle width direction.

As shown in FIG. 2, a pair of left and right brackets 24, 24 are provided on the vehicle rear end portion 16b side of each vertical member 16. The left and right brackets 24 are configured to have the same shape, and are manufactured, for example, by press-molding a metal plate body and performing uneven processing. Each bracket 24 exhibits a substantially strip-shaped body that is long when viewed from the bottom. Further, each bracket 24 is arranged in a substantially C shape extending outward in the substantially vehicle width direction from the vehicle rear end portion 16b of the vertical member 16 which is inside in the vehicle width direction.

3 is an enlarged bottom view of part E shown in FIG. 2, FIG. 4 is an enlarged arrow view seen from the direction of arrow X in FIG. 2, and FIG. 5 is a vertical cross-sectional view taken along the line VV in FIG. FIG. 6 is an end view taken along the VI-VI line of FIG.
Is.

As shown in FIGS. 3 and 4, each bracket 24 has a flat base portion 26, a front flange portion 28 located on the vehicle front side of the base portion 26, and a rear flange portion located on the vehicle rear side of the base portion 26. It has a U-shaped cross-sectional portion 32 (see FIG. 6) composed of 30 and 3.

Further, at both ends of each bracket 24 along the axial direction, a first fastening portion 34 and a second fastening portion 36, which are fastened via bolts B and nuts (not shown), are provided. In the first fastening portion 34, the inner end portion 24a of the bracket 24 in the vehicle width direction and the vehicle rear end portion 16b of each vertical member 16 are fastened. The second fastening portion 36 is fastened to the outer end portion 24b of the bracket 24 in the vehicle width direction and the vehicle front portion 22a of each out trigger (vehicle body side member) 22. The first fastening portion 34 and the second fastening portion 36 are formed by a bulging portion formed by bulging downward as compared with the base portion 26 which is a general portion.

The first fastening portion 34 and the second fastening portion 36 are formed in a circular shape when viewed from the bottom, and are formed with fastening holes 38 to which the bolt B is fastened. Further, the second fastening portion 36 is formed of a recess in which a part surrounding the fastening hole 38 is notched, and a slit 40 extending in the outer diameter direction from the center of the fastening hole 38 is formed.

The slit (recess) 40 is formed so as to extend outward in the vehicle width direction from the axial center of the second fastening portion 36 (see FIG. 2). The slit 40 functions as the "drop-off promoting portion for promoting the bracket from falling off from the first fastening portion or the second fastening portion when a vehicle collides" according to claim 1.

In this embodiment, the case where the slit 40 that functions as the drop-off promoting portion is provided only in the second fastening portion 36 is illustrated, but the present invention is not limited to this. For example, the slit 40 may be formed in either or both of the first fastening portion 34 and the second fastening portion 36, respectively.

As shown in FIG. 1, a pair of left and right arm mounting portions 42, 42 are provided at an intermediate portion along the axial direction of each vertical member 16 and overlapping with the cross member 18 in the vehicle width direction. .. An arm mounting bracket 44 that branches in a bifurcated shape is attached to each arm mounting portion 42. One end of the suspension arm 46 is rotatably attached to each arm mounting bracket 44 via a bush (not shown) (see FIG. 2). Each arm mounting portion 42 is arranged on a virtual extension line A of each brace 20.

The pair of braces 20 and 20 are arranged behind the cross member 18 and are connected so as to hang the pair of left and right vertical members 16 and 16 in a crossing shape. The second fastening portion 36 of each bracket 24 is arranged on the virtual extension line A of the axis of each brace 20 (see FIG. 2).

The front subframe structure according to the present embodiment is basically configured as described above, and the effects thereof will be described next.

In the present embodiment, a pair of left and right brackets 24, 24 for connecting the vehicle rear end portion 16b of each vertical member 16 and the vehicle front portion 22a of the outrigger 22 which is a vehicle body side member are provided. Each bracket 24 has a first fastening portion 34 that is fastened to each vertical member 16 and a second fastening portion 36 that is fastened to the vehicle front portion 22a of the outrigger 22. The second fastening portion 36 is provided with a drop-off promoting portion (slit 40) that promotes the bracket 24 to fall off from the second fastening portion 36 in the event of a vehicle collision.

In the present embodiment, the load is transmitted between the vertical member 16 and the out trigger 22 which is a vehicle body side member via the bracket 24 which connects the vehicle rear end portion 16b of each vertical member 16 and the vehicle front portion 22a of the out trigger 22. Is possible. Thereby, in the present embodiment, it is possible to improve the rigidity and strength against the load input from the suspension arm 46 (see FIG. 2) or the like to the front subframe 10. Further, in the present embodiment, since the second fastening portion 36 is provided with a drop-off promoting portion that promotes the bracket 24 to fall off in the event of a vehicle collision, the rigidity and strength of the front sub-frame 10 are improved and the front sub-frame is improved. 10 can be reliably removed from the vehicle body side member. As a result, in the present embodiment, both the detachment of the front subframe 10 at the time of a collision and the improvement of the rigidity and strength of the front subframe 10 can be harmonized (combined).

Further, in the present embodiment, the second fastening portion 36 has a fastening hole for fastening the bolt, and a slit 40 formed so as to extend from the fastening hole 38 in the outer diameter direction is provided as a drop-off promoting portion. As a result, in the present embodiment, the front subframe 10 can be fixed to the vehicle body side member by the axial force (fastening force) of the bolt B in the normal state. Further, when the collision load in the axial crossing direction is transmitted due to the vehicle collision, the bracket 24 can be dropped from the bolt B through the slit 40. As a result, in the present embodiment, the drop-off promoting portion can be easily manufactured by having a simple structure, and the axial force of the bolt B and the orientation direction of the slit 40 (including the shape of the slit 40) are adjusted. As a result, the dropout mode at the time of a vehicle collision can be easily controlled.

Further, in the present embodiment, the slit 40 is formed so as to extend outward in the vehicle width direction from the axial center of the second fastening portion 36. For example, at the time of an offset collision, the vertical member 16 of the front subframe 10 may be displaced toward the rear of the vehicle and toward the center in the vehicle width direction. In the present embodiment, even in the case of such an offset collision, the slit 40 is formed so as to extend outward from the axial center of the second fastening portion 36 in the vehicle width direction, whereby the vertical member 16 is formed. The bracket 24 can be easily and surely dropped from the bolt B in response to the displacement.

Furthermore, in the present embodiment, the slit 40 is formed so as to extend from the axial center of the second fastening portion 36 toward the front of the vehicle. For example, in the case of a frontal collision, the vertical member 16 of the front subframe 10 is displaced toward the rear of the vehicle. In the present embodiment, even in the case of such a frontal collision, since the slit 40 is formed so as to extend from the axis of the second fastening portion 36 toward the front of the vehicle, it corresponds to the displacement of the vertical member 16. The bracket 24 can be easily and surely removed from the bolt B.

Furthermore, in the present embodiment, the bracket 24 has a U-shaped cross-sectional portion 32 composed of a base portion 26, a front flange portion 28 located on the front side of the vehicle, and a rear flange portion 30 located on the rear side of the vehicle. Have. In the present embodiment, by forming the bracket 24 as a U-shaped cross-sectional portion 32, the rigidity and strength of the bracket 24 itself are improved, and the rigidity and strength of the vehicle body against the load input from the suspension arm 46 and the like are improved. Can be made to.

Furthermore, in the present embodiment, the pair of vertical members 16 and 16 are provided with a pair of braces 20 and 20 that are hung in a cross-legged shape. The second fastening portion 36 of the bracket 24 is arranged on a virtual extension line of the axis of each brace 20. In the present embodiment, the load can be transmitted between the pair of left and right vertical members 16 and 16 via the pair of braces 20 and 20. Further, by arranging the second fastening portion 36 on the virtual extension line of each brace 20, the load transmission path from one vertical member 16 to the other vertical member 16 and the load from the other vertical member 16 to the vehicle body side. The transmission path is substantially linear. As a result, in the present embodiment, the vehicle body rigidity and the vehicle body strength can be further improved by increasing the load transmission efficiency through both load transmission paths arranged substantially linearly.

Furthermore, in the present embodiment, an arm mounting portion 42 having an arm mounting bracket 44 to which one end of the suspension arm 46 is mounted is provided at an intermediate portion along the axial direction of each vertical member 16. The arm mounting portion 42 is arranged on a virtual extension line of each brace 20. In the present embodiment, by arranging the arm mounting portion 42 formed with relatively high rigidity and high strength on the virtual extension line of the brace 20, the load transmitted from the brace 20 is transferred to the arm having high rigidity and high strength. It can be received by the mounting portion 42. Further, the load received by the arm mounting portion 42 can be transmitted to the bracket 24 and the suspension arm 46, and the vehicle body rigidity and the vehicle body strength can be further improved.

10 Front subframe 16 Vertical member 16b (Vertical member) Rear end of vehicle 18 Cross member 20 Brace 22 Out trigger (body side member)
24 Bracket 26 Base 28 Front flange 30 Rear flange 32 U-shaped cross section 34 1st fastening 36 2nd fastening 38 Fastening hole 40 Slit (fall-off promotion part)
42 Arm mounting part 46 Suspension arm A Virtual extension line

Claims (6)

A front subframe having a pair of left and right vertical members extending in the front-rear direction of the vehicle and a cross member extending along the vehicle width direction between the pair of left and right vertical members.
A pair of left and right brackets for connecting the rear end of each vertical member to the vehicle body side member are provided.
Each bracket has a first fastening portion to be fastened to each vertical member and a second fastening portion to be fastened to the vehicle body side member.
At least one of the first fastening portion and the second fastening portion is provided with a drop-off promoting portion that promotes the bracket to fall off from the first fastening portion or the second fastening portion when a vehicle collides .
Further, it is provided with a pair of braces that hang between the pair of left and right vertical members in a cross-shaped manner.
The front subframe structure is characterized in that the second fastening portion is arranged on a virtual extension line of the axis of each brace . In the front subframe structure according to claim 1,
The first fastening portion and the second fastening portion have fastening holes for fastening bolts.
The front subframe structure is characterized in that the drop-off promoting portion is a slit formed so as to extend from the fastening hole in the outer diameter direction. In the front subframe structure according to claim 2,
The front subframe structure is characterized in that the slit is formed so as to extend outward in the vehicle width direction from the axial center of the second fastening portion. In the front subframe structure according to claim 2 or 3.
The front subframe structure is characterized in that the slit is formed so as to extend from the axis of the second fastening portion toward the front of the vehicle. In the front subframe structure according to any one of claims 1 to 4.
The bracket has a front subframe structure having a U-shaped cross section including a base portion, a front flange portion located on the front side of the vehicle, and a rear flange portion located on the rear side of the vehicle. In the front subframe structure according to claim 1 ,
An arm mounting portion to which one end of the suspension arm is mounted is provided at an intermediate portion along the axial direction of each of the vertical members.
The front subframe structure is characterized in that the arm mounting portion is arranged on the virtual extension line of each brace.

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