JP5156729B2 - Subframe structure - Google Patents

Description

  The present invention relates to a subframe structure.

The rear end of the front side frame arranged along the front-rear direction on both sides of the engine room, the front end of the side sill arranged along the front-rear direction on both sides of the vehicle compartment, and the vehicle width center of the vehicle compartment Some have a vehicle body structure provided with a connecting member that connects a front end portion of a center frame arranged along the front-rear direction.
The connecting member includes an outrigger extending obliquely rearward toward the vehicle width direction outer side and continuing to the front end portion of the side sill, and a center frame extension extending obliquely rearward toward the vehicle width direction inner side and continuing to the front end portion of the center frame. Therefore, the rearward collision load input to the front side frame at the time of a vehicle collision can be distributed in the vehicle width direction to the side sill and the center frame via the connecting member, and deformation of the passenger compartment due to the collision load can be minimized. (See Patent Document 1).

JP 2009-18725 A

  By the way, in the above conventional structure, a suspension part is provided under the front side frame and a frame-shaped subframe on which the engine is mounted is supported. A large engine is mounted on the front cross member of the frame-shaped subframe. Therefore, if the vehicle is moved forward and moved to a position higher than the left and right vertical frames in order to avoid contact with the curbstone, there is a problem that the front end of the vertical frame is bent at the time of a vehicle frontal collision.

  Therefore, the present invention prevents the bending of the front part of the vertical frame at the time of a vehicle front collision by increasing the strength and rigidity from the front cross member of the frame-shaped subframe arranged at the lower part of the engine room to the front part of the vertical frame. An object of the present invention is to provide a subframe structure that can reliably transmit an input load to a vehicle body floor.

In order to achieve the above object, a frame-like sub that is disposed in the lower part of an engine room (for example, the engine room 11 in the embodiment) and has an engine mounted thereon and a suspension component (for example, the suspension component 38 in the embodiment). In the frame structure, a front cross member extending in the vehicle width direction (for example, the front cross member 33 in the embodiment) and a rear cross member (for example, the rear cross member 34 in the embodiment) and left and right vertical frames (for example, extending in the vehicle front-rear direction) , vertical frames 23, 23) and de-configured in the embodiment, the front by arranging the cross member at a position higher than the vertical frame, coupling member said the front cross member and the longitudinal frame (e.g., in the embodiment connecting member 39) attached via the linking member is the front Kurosumen And a half-shaped plate member formed so as to sandwich the vertical frame from above and below, a holding portion (for example, the holding portion 62 in the embodiment) that wraps the front cross member and the front end of the vertical frame, A front mounting portion in which a collar (for example, the collar 47 in the embodiment) is built in a portion projecting outside the front portion of the holding portion is set so that the longitudinal frame gradually approaches the rear portion of the front mounting portion. A base portion formed obliquely is provided on the base portion, and a lower arm attachment portion (for example, the lower arm attachment portion 65 in the embodiment) for attaching a front end portion of a lower arm, which is a suspension component, is provided on the base portion. rear mounting portion to the vehicle body in the section (e.g., front subframe mounting stiffener 30a in the embodiment) is set, the said holding portion front Beads with the same height as the front cross member on the upper surface of the connecting member between the attachment portions (e.g., reinforcing beads 66 in the embodiment) is provided, lengthwise the bead from the front of the front cross-member a range across the front of the frame, characterized in that the sub-frame (e.g., front subframe 31 in the embodiment) is formed along the rear mounting portion through said longitudinal frame and a line parallel sub Frame structure.

According to the invention described in claim 1, even if an impact load is inputted to the front cross member of the sub-frame during a vehicle frontal collision, strength and rigidity of the bead connecting member of the connecting member before joining the cross member and the vertical frame Therefore, the upward bending of the front portion of the vertical frame can be prevented, and the input load can be reliably transmitted from the rear mounting portion of the subframe to the vehicle body.
Further, the front cross member and the vertical frame can be reinforced with a simple configuration. Furthermore, since the setting of the bending strength at the front end of the vertical frame can be changed by changing the connecting member, the degree of freedom in design is increased.
And by setting a front part attachment part as a connection member, since a front side frame can be set as a common vertical frame, versatility is improved.

It is the figure which looked at the vehicle body of the motor vehicle of this embodiment from the lower surface. It is A arrow directional view of FIG. It is a bottom view of a front subframe. It is the principal part perspective view under the floor which looked at the compartment from the bottom. It is a perspective view of the left reinforcement member. It is sectional drawing which follows the BB line of FIG.

Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a view of a vehicle body as viewed from below, and FIG. 2 is a view taken in the direction of arrow A in FIG. 1 and 2 show the outer shape of the vehicle body by chain lines. As shown in FIGS. 1 and 2, a vehicle body frame includes a pair of left and right front side frames 12 and 12 extending in the longitudinal direction of the vehicle body along both left and right sides of an engine room 11, and a vehicle compartment 13. A pair of left and right side sills 14, 14 extending in the longitudinal direction of the vehicle body along the left and right side portions, and a pair of left and right closed cross sectional structures extending in the longitudinal direction of the vehicle body along the left and right side portions of the fuel tank storage portion 15 and the trunk room 16. The rear side frames 17 and 17 and a closed cross-sectional structure that extends rearward and upward from the front ends of the front side frames 12 and 12 and is connected to the upper ends of a pair of left and right front pillar lowers 18 and 18 that rise from the front ends of the left and right side sills 14 and 14. And a pair of left and right upper members 19, 19.

  The vehicle body frame extends in the vehicle body width direction and has a front bumper beam 21 having both ends connected to the front ends of the front side frames 12 and 12 via front side frame extensions 20 and 20, and a vehicle body frame extending in the vehicle body width direction. A dash lower cross member 22 that connects the rear ends of the front side frames 12 and 12 and forms a closed cross-section structure with a dashboard lower 44 described later, and the vehicle bodies of the left and right side sills 14 and 14 extending in the vehicle body width direction. A front cross member 23, which forms a closed cross-section structure on a front floor panel 43, which will be described later, and connects between the front ends of the left and right rear side frames 17, 17 extending in the vehicle body width direction. A middle cross member 24 that forms a closed cross-sectional structure with the rear floor panel 45 that The left and right rear side frames 17, 17 are connected between center portions in the longitudinal direction of the vehicle body and form a closed cross-section structure with a rear floor panel 45 described later, and the left and right rear side frames extending in the vehicle body width direction. A rear bumper beam 26 that connects between the rear ends of 17, 17; a rear end frame 27 that extends in the vehicle body width direction and connects the left and right rear side frames 17, 17 between the rear cross member 25 and the rear bumper beam 26; and a dash lower cross member. A pair of left and right center frames 29, 29 extending along the left and right sides of the floor tunnel 28 extending from 22 to the middle cross member 24 and forming a closed cross-sectional structure with a front floor panel 43 described later are provided.

  Further, the vehicle body frame is supported by a pair of left and right connecting members 30 and 30 that connect the front side frames 12 and 12, the side sills 14 and 14, and the center frames 29 and 29, and lower portions of the left and right front side frames 12 and 12. A frame-shaped front subframe 31 is provided.

Next, the connecting member 30 will be described. Here, since the left and right connecting members 30, 30 have a mirror-symmetric shape, only one will be described.
As shown in FIGS. 1 and 2, the connecting member 30 is a member having a cross-sectional shape that is formed by pressing a steel plate material and opened upward. The connecting member 30 is joined to the rear end of the front side frame 12 and obliquely rearwardly outward. An outrigger 30 b that extends and is joined to the front end of the side sill 14 is provided. Outrigger 30b are both both are constructed so as to be divided into a front outrigger 30 fb sectional shape opened on the upper side and the rear outrigger 30bb are joined, the front sub-frame mounted on the lower surface of the front outrigger 30fb projecting cup downwards The stiffener 30a is joined.

Further, the connecting member 30 includes a center frame extension 30c that is joined to the inner side wall of the front outrigger 30fb, extends obliquely toward the inside in the vehicle body width direction and rearward, and is joined to the front end of the center frame 29. The center frame extension 30c is also formed in a cross-sectional shape opened upward.
The outrigger 30b and the center frame extension 30c form a closed cross-section structure portion below the front floor panel 43 and the dashboard lower 44 so as to straddle the joint portion between the front floor panel 43 and the dashboard lower 44. ing.

  A rubber bush joint 36 is housed inside the front subframe mounting stiffener 30a, and the rear portion of the front subframe 31 is fastened and fixed by a bolt 37 passing therethrough. Accordingly, the front sub-frame mounting stiffener 30a is set as a support point for the rear portion of the front sub-frame 31 disposed below the engine room 11 (see FIG. 2).

FIG. 3 is a bottom view of the front subframe. As shown in FIG. 3, the front sub-frame 31 includes a pair of left and right vertical frames 32, 32 that are mainly hydroform molded products. The front cross member 33 made of a round pipe material and the press molded product to a rear cross member 34 are square. It is configured to be connected in a frame shape. The front cross member 33 is disposed at a position higher than the vertical frames 32 and 32. A suspension part 38 indicated by a chain line is assembled to the front subframe 31.
Here, at the connection portion between the vertical frames 32 and 32 and the front cross member 33, a part of the end portion of the front cross member 33 and the front end portion of the vertical frame 32 and the outer portion at the rear portion from the front end portion are arranged in the front-rear direction of the vehicle body. A reinforcing member 39 is provided as a connecting member that covers the upper and lower directions to wrap around the center of the direction. The reinforcing member 39 is composed of an upper plate 40 and a lower plate 41 that are press-molded.

  A collar 47 is disposed inside the reinforcing member 39 on the outer side of the front part, and a bolt 48 is inserted through the collar 47, and a rubber bush in the front subframe mounting bracket 42 attached to the lower front end of the front side frame 12. A reinforcing member 39 is fastened and fixed to the front end of the front side frame 12 via joints 35 and 35. Therefore, the lower surfaces of the front subframe mounting brackets 42, 42 attached to the front end lower surfaces of the front side frames 12, 12 are configured as support points for elastically supporting the front end of the front subframe 31.

  In the passenger compartment 13, front floor panels 43 are arranged between both side edges of the floor tunnel 28 and the side sills 14 and 14. Both side edges of the floor tunnel 28 are dropped below the surface of the front floor panel 43, and then a center frame 29 is formed on the upper side so that the upper portion is open. The floor tunnel 28 is closed so as to close the upper opening. The inner edge of each front floor panel 43 is joined to each side wall. The outer edge of each front floor panel 43 is joined to the inner wall of the side sill 14.

  The front edge of the front floor panel 43 is joined to the lower rear edge of the dashboard lower 44 from the upper side, and the rear edge of the front floor panel 43 is a rear floor constituting the floor surface of the fuel tank housing 15 and the trunk room 16 from the middle cross member 24. Connected to the panel 45. In the floor tunnel 28, a bulkhead 46 is joined to the position along the front cross member 23 in the vehicle body width direction.

FIG. 4 is a perspective view of a main part under the floor as seen from the lower side of the passenger compartment.
As shown also in FIG. 4, the outriggers of the connecting member 30 located on the lower surfaces of the front sides of the front floor panel 43 (only the left side is shown in FIG. 4), specifically, the rear of the front subframe mounting stiffener 30a. A stiffener 50 joined to the outrigger 30b, the center frame extension 30c, the dashboard lower 44, and the front floor panel 43 so as to cover the base portion of the base portion 30b and the center frame extension 30c extends to the rear of the vehicle body. I'm out. This stiffener 50 is a member having a U-shaped cross section that opens upward, and a flange portion 53 provided at the periphery is joined to form a closed cross-section structure under the dashboard lower 44 and the front floor panel 43.

The stiffener 50 extends rearward beyond the position of the front cross member 23, and a U-shaped bead 51 having a cross-sectional shape that matches the cross-sectional shape of the stiffener 50 is provided at the rear of the front floor panel 43. The bead 51 is connected to the stiffener 50 so that the rear end of the bead 51 is coupled to the middle cross member 24 disposed behind the front cross member 23.
Here, the stiffener 50 includes a high-strength front stiffener 54 and a low-strength rear stiffener 55, and the rear end position of the front stiffener 54 matches the rear end position of the outrigger 30b, that is, the rear outrigger 30bb. The rear end of the rear stiffener 55 is continuous with the bead 51.

  An inclined portion 52 that is connected to the rear end portion of the stiffener 50 and descends from the front to the rear is formed at the front end portion of the bead 51. Specifically, as shown in FIG. 2, the inclined portion 52 of the bead 51 is a portion where the front portion of the bottom wall 58 is inclined, and the rear edge 59 of the stiffener 50 (rear stiffener 55) is joined to the bottom wall 58. The side wall 56 of the bead 51 corresponding to the inclined portion 52 is joined to the side wall 57 of the stiffener 50 (rear stiffener 55).

  5 is a perspective view of the left reinforcing member, and FIG. 6 is a cross-sectional view taken along line BB in FIG. As shown in FIGS. 5 and 6, the reinforcing member 39 includes a front joint member 60 and an inner joint flange 61 that wrap the front cross member 33 and the front end of the vertical frame 32 by the upper plate 40 and the lower plate 41. A holding part 62 is provided. The outer side of the holding portion 62 is formed by projecting the mounting portion 63 of the front subframe mounting bracket 42 attached to the lower surface of the front side frame 12, and the collar 47 is provided in the most protruding portion of the mounting portion 63. An insertion hole 64 for a bolt 48 is formed. The rear portion of the attachment portion 63 is formed obliquely so as to gradually approach the vertical frame 32, and a lower arm attachment portion 65 for attaching a front end portion of a lower arm, which is a suspension component, is provided at the base portion of the attachment portion 63. The rear end of the lower arm is supported by the vertical frame 32 (see FIG. 3).

  And the reinforcement bead 66 which raised the upper plate 40 is formed inside the insertion hole 64 of the attaching part 63 (the chain line in FIG. 6 shows a state without a reinforcement bead). The reinforcing bead 66 has a trapezoidal cross section, and the height of the upper end is set to be the same as that of the front cross member 33. From the front of the front cross member 33 to the front of the vertical frame 32, specifically, the inner joint flange 1 extends along the line parallel to the vertical frame 32 through the position of the bolt 37 of the front subframe mounting stiffener 30a shown in FIG. Is formed.

  According to the above embodiment, the rearward collision load input from the front bumper beam 21 via the front side frame 12 during the frontal collision of the vehicle is dispersed in the vehicle body width direction to the side sill 14 and the center frame 29 via the connecting member 30. In addition, since it is transmitted from the connecting member 30 to the front cross member 23 and the middle cross member 4 through the stiffener 50 and the bead 51 and dispersed in the longitudinal direction of the vehicle body, the deformation of the vehicle compartment 13 can be minimized.

  Here, in order to mount a large engine, the front cross member 33 of the front sub-frame 31 is moved to the front side compared to the conventional case, and the front cross member 33 is moved from the left and right vertical frames 32 and 32 in order to prevent interference with the curb. In the case of a front collision of the vehicle, even if an impact load is input to the front cross member 33 of the front sub-frame 31, the reinforcing member 39 that joins the front cross member 33 and the vertical frames 32 and 32 is set. Since the strength and rigidity of the reinforcing member 39 can be increased by the reinforcing bead 66, it is possible to prevent upward bending of the front portions of the vertical frames 32 and 32 and to reliably input the load from the rear mounting portion of the front subframe 31 to the vehicle body. Can be transmitted.

Further, the front cross member 33 and the vertical frames 32 and 32 can be reinforced by the reinforcing member 39 with a simple configuration. Furthermore, since the setting of the bending strength of the front ends of the vertical frames 23 and 32 can be changed by changing only the reinforcing member 39, the degree of freedom in design is increased.
Since the front mounting portion of the front subframe 31 is set to the reinforcing member 39, the front subframes 31 of different vehicle types can be set using the vertical frames 32, 32 and, in some cases, the front cross member 33 as a common component. Therefore, versatility can be improved.

11 Engine room 38 Suspension component 33 Front cross member 34 Rear cross member 39 Reinforcing member (connecting member)
66 Reinforced beads (beads)
31 Front subframe 30a Front subframe mounting stiffener (rear mounting part)
40 Upper plate (plate member)
41 Lower plate (plate member)

Claims (1)

In a frame-like subframe structure that is disposed in the lower part of the engine room and has an engine and suspension parts, a front cross member and a rear cross member that extend in the vehicle width direction, and left and right vertical frames that extend in the vehicle longitudinal direction configured, the front by arranging the cross member at a position higher than the vertical frame, the pre-bonded via the connecting member and the cross member and the vertical frame, the connecting member is the vertical frame and the front cross-member Is a half-shaped plate member formed so as to be sandwiched from above and below, a holding part that wraps the front cross member and the front end part of the vertical frame, and a collar that protrudes to the outside of the front part of the holding part A base part formed obliquely so as to gradually approach the vertical frame is provided at the rear part of the front part attaching part by setting the interior front part attaching part, Of the base portion, the lower arm mounting portion is provided for mounting the front end of the lower arm is a suspension component, said set of rear mount portion on the rear end portion of the vertical frame, between the said holding portion front mounting portion wherein the top surface of the coupling member before providing the bead with the same height as the cross member, a range across the bead on the front of the vertical frame from the front of the front cross-member, the said sub-frame A sub-frame structure formed along a line passing through the rear attachment portion and parallel to the vertical frame.

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