JP5061512B2 - Suspension frame structure - Google Patents

Description

  The present invention relates to a suspension frame structure such as a cross member of a strut type front suspension that supports a lower arm of a suspension.

  Conventionally, the suspension frame structure of the above-described example includes a lower plate that is positioned on the lower side and formed in a substantially flat plate shape, and a substantially box-shaped upper plate that is positioned on the upper side and has a lower opening. Some suspension cross members are configured by joining plates, and the suspension cross members are configured to support the inner side ends of the left and right lower arms.

  In this conventional suspension frame structure, the plate thickness of the upper plate is specified to be constant, and for the purpose of securing the strength of the portion that supports the lower arm of the suspension, if the plate thickness of the upper plate is increased, While there is an advantage that the lower arm support strength can be ensured, there is a problem in that the weight is increased.

  On the other hand, Patent Document 1 discloses a suspension frame structure in which an upper plate and a lower plate are joined to form a suspension frame, and suspension arm support portions are provided on the left and right ends of the suspension frame. There is disclosed a suspension frame structure in which a plate is composed of a pair of left and right side plates provided with a support portion that supports at least a rear arm portion of a suspension arm, and a center plate that connects these side plates to each other.

  The suspension frame structure disclosed in Patent Document 1 is composed of three types of plates: a lower plate, a side plate, and a center plate. Therefore, the thickness of the center plate is reduced to reduce the mass. There is an advantage that the weight of the suspension frame can be reduced.

However, the suspension frame structure has a problem that it is difficult to sufficiently improve the rigidity because the closed cross section is formed only in a narrow range due to the shape of the center plate.
JP 2001-294172 A

  In view of this, the present invention corresponds to a gap between a lower plate having left and right support portions for supporting lower and rear arm ends (vehicle inner end portions) from below and support portions for the left and right lower arm rear ends of the lower plate. A substantially box-shaped upper plate that extends in the vehicle width direction and extends forward toward the support portion for the lower arm front end and forms a closed cross section with the lower plate, and a support that supports the rear end of the lower arm from above By configuring the suspension frame with the left and right side plates connected to the lower plate and the upper plate, the closed cross section can be closed without complicating the structure of the lower plate, upper plate, and side plate. An object of the present invention is to provide a suspension frame structure capable of ensuring the support rigidity of the lower arm by the structure.

The suspension frame structure according to the present invention is a suspension frame structure having a closed cross-sectional structure, and the suspension frame has a substantially flat plate shape having lower support portions on both the left and right sides for supporting both front and rear arm ends from below. Extends in the vehicle width direction at a position corresponding to the lower plate and the lower support portions for the left and right lower arm rear ends of the lower plate, and is further inward in the vehicle width direction than the lower support portions for the left and right lower arm rear ends. in a manner Ru extends forward toward the lower support portion for the lower arm front end from the left and right ends, a substantially box-shaped upper plate of the lower openings forming a closed cross section between the lower plate, after the lower arm Consists of upper and lower support parts that support the end from above, and left and right side plates connected to the lower plate and upper plate Is, the upper plate includes a upper piece extending in the vehicle width direction at a position corresponding to between the lower support portion for the lower arm rear ends of the left and right above the lower plate to the upper surface, the lower arm from the left and right sides of the upper piece portion A vertical extension that extends downward from the rear edge of the upper piece and the outer edge in the vehicle width direction of the extension, and has an extension that extends forward toward the lower support for the front end. A wall portion is provided, and a lower end portion of the vertical wall portion is connected to an upper surface of the lower plate , and the plate thickness of the upper plate and the lower plate is set to be thinner than the plate thickness of the side plate, Is a side plate upper piece portion that has the upper support portion and is located in the vicinity of the upper edge of the vertical wall portion of the upper plate, and a side plate vertical wall that extends downward from the rear edge of the side plate upper piece portion. With The side plate upper piece extends from the rear edge of the upper piece of the upper plate to the outer edge in the vehicle width direction that is spaced forward of the upper plate, and the side plate upper piece is The upper side plate is connected to the upper plate from the upper surface side, and the side plate vertical wall portion is connected to the lower portion of the vertical wall portion of the upper plate and is connected to the lower plate on the outer side in the vehicle width direction than the upper plate. it is, and to reinforce the corners vehicle outer side of the upper plate, in the closed section of the lower plate and Appapure DOO, reinforcement so as to connect the left and right side plates in the vehicle width direction is provided, the reinforcement is disposed in a position to the side plates overlap the left and right in a plan view, the upper piece lower surface of the upper plate and the lower It is connected to the upper surface of the plate .
According to the above configuration, since the suspension frame is divided into the lower plate, the upper plate, and the side plate (three types and four divisions), the suspension frame can be configured without complicating the structure of each plate.
Moreover, a closed cross section extending in the vehicle width direction and a closed cross section in the front-rear direction corresponding to a portion where the upper plate extends forward toward the lower support portion for the lower arm front end are formed between the lower plate and the upper plate. In addition, since the side plate having the upper support portion for the lower end of the lower arm is connected to the lower plate and the upper plate, the support rigidity of the lower arm is ensured by the above-described closed cross-sectional structure and the reinforcing structure by the side plate. be able to.

  Further, the plate thickness of the upper plate is set to be thinner than the plate thickness of the side plate. Thus, the plate thickness of the upper plate is set to be thin, so that the weight of the suspension frame can be reduced. In other words, the plate thickness of the side plate is set to be thicker than the plate thickness of the upper plate, ensuring the necessary strength, and the plate thickness of the upper plate is made smaller than this side plate. Ensuring sufficient strength to support and weight reduction of the suspension frame can be achieved.

  Further, in the closed section between the lower plate and the upper plate, a reinforcement is provided so as to connect the left and right side plates in the vehicle width direction. Since the reinforcement is provided in the above-described closed section so as to connect the side plates in the vehicle width direction, the rigidity of the suspension frame can be further improved.

In one embodiment of the invention, the plate thickness of the lower plate is set to an intermediate plate thickness between the plate thickness of the upper plate and the plate thickness of the side plate.
According to the above configuration, since the plate thickness of the lower plate is set as described above, it is possible to secure sufficient strength to support the lower arm and reduce the weight of the suspension frame while ensuring the corrosion resistance and rigidity of the lower plate. It is possible to achieve both, and by setting the thickness of the lower plate, the plating process for the lower plate becomes unnecessary, and it is only necessary to paint the lower plate, so that the cost can be reduced.

In one embodiment of the present invention, the connecting portion of the side plate to the upper plate extends forward of the side plate upper piece and toward the support portion for the lower arm front end, so It is formed so as to be connected to the outer edge in the width direction .
According to the above configuration, since the connecting portion of the side plate extends forward to the lower arm front end support portion side of the upper plate, the lateral rigidity of the lower arm front end support portion can be improved.

In one embodiment of the present invention, a stabilizer support portion is provided on the upper part of the side plate.
According to the above configuration, the above-mentioned stabilizer originally suppresses the roll angle at the time of rebound and only one wheel bump by the resistance of torsional rigidity, but because the support portion of this stabilizer is provided on the highly rigid side plate, The support rigidity of the stabilizer can be ensured.

  According to the present invention, the lower plate having left and right support portions for supporting the front and rear arm ends from the lower side and the left and right lower arm rear end support portions of the lower plate extend in the vehicle width direction correspondingly. A lower box having a substantially box-shaped upper plate that extends forward toward the lower arm front end support portion and forms a closed cross-section with the lower plate, and a lower arm support portion that supports the rear end of the lower arm from above. Since the suspension frame is composed of the left and right side plates connected to the plate and upper plate, the support rigidity of the lower arm is improved by the closed cross-sectional structure without complicating the structure of the lower plate, upper plate, and side plate. There is an effect that can be secured.

In a suspension frame structure having a closed cross-sectional structure , the suspension frame supports both front and rear arm ends from below, with the aim of ensuring the support rigidity of the lower arm of the suspension without complicating the structure of each plate. A substantially flat lower plate having lower support portions on the left and right sides, and extending in the vehicle width direction at a position corresponding to the lower support portions for the rear ends of the left and right lower arms of the lower plate, and the left and right lower arms in a manner Ru extending from the left and right ends of the vehicle width direction inside than the lower support portion for the rear end to the front toward the lower support portion for the lower arm front, lower to form a closed cross section between the lower plate The upper plate having a substantially box shape with an opening and an upper support portion that supports the rear end of the lower arm from above, and the lower plate and the upper plate It is composed from the left and right and each side plate being connected to the bets, the upper plate, on which extends in the vehicle width direction at a position corresponding to between the lower support portion for the lower arm rear ends of the left and right above the lower plate to the upper surface And an extension portion extending forward from the left and right sides of the upper piece toward the lower support portion for the lower arm front end, and a rear edge of the upper piece portion and an outer side in the vehicle width direction of the extension portion. A vertical wall portion extending downward from the edge and integrally formed is provided, and a lower end portion of the vertical wall portion is connected to the upper surface of the lower plate , and the thickness of the upper plate and the lower plate is the side wall is set thinner than the thickness of the plate, the side plate has the upper support, and the side plate upper piece portion located vertical wall upper edge vicinity of the upper plate, of the side plate upper piece A side plate vertical wall portion extending downward from the edge, and the side plate upper piece is between the rear edge of the upper piece of the upper plate and the outer edge in the vehicle width direction that is spaced forward. The side plate upper piece is connected to the upper plate from the upper surface side, and the side plate vertical wall is connected to the lower portion of the vertical wall of the upper plate, by being connected the lower plate and in the vehicle width direction outer side than the upper plate, which reinforces the corner car outside of the upper plate, in the closed section of the lower plate and Appapure DOO, left and right side reinforcement is provided so as to connect the plate to the vehicle width direction, position in which the reinforcement is to the side plates overlap the left and right in a plan view And is configured to be connected to the lower surface of the upper piece of the upper plate and the upper surface of the lower plate .

An embodiment of the present invention will be described in detail with reference to the drawings.
The drawing shows a suspension frame structure. First, the structure of a strut type front suspension will be described with reference to FIG.

  Wheel hubs 1 and 1 for supporting left and right front wheels (not shown) are provided, and knuckles 2 and 2 are attached to the left and right wheel hubs 1 and 2 through bearings.

  Each of the knuckles 2 and 2 includes a damper connecting extension 2a extending upward, a tie rod connecting extension 2b extending rearward, and a lower arm connecting extension 2c extending downward.

  An outer end 3a of the lower arm 3 is connected to the lower end of the extension 2c of the knuckle 2 via a joint and a support bush, and a lower part of the strut 5 of the damper 4 is connected to the extension 2a of the knuckle 2. A tie rod (not shown) for steering the front wheels is connected to the extended portion 2b (so-called knuckle arm portion).

  The damper 4 includes a strut 5, an upper seat 6, a lower seat 7, and a coil spring 8 stretched between the upper and lower seats 6, 7, and the lower portion of the strut 5 is interposed via a bracket 9. The upper portion of the damper 4 is attached to a suspension tower portion (not shown) on the body side.

  Both front and rear arm ends (vehicle inner end portions) of the left and right lower arms 3 and 3 are supported by a predetermined portion of the suspension frame 10 via a support bush so as to be swingable. A stabilizer 11 is attached to the frame 10, and a control link 13 is attached between both ends of the stabilizer 11 and the lower seat 7 of the damper 4 via upper and lower joints 12 and 12 (see FIG. 17). .

  Here, the above-described stabilizer 11 (see FIGS. 1 and 17) suppresses the roll angle at the time of bumping or rebounding of only one wheel by resistance of torsional rigidity.

Next, the structure of the suspension frame 10 (so-called suspension cross member) will be described in detail.
2 is a plan view showing the suspension frame structure, FIG. 3 is a rear view thereof, and FIG. 4 is a left side view (enlarged view) of FIG. 2. The suspension frame 10 has a substantially flat plate shape located on the lower side. A lower plate 14 (see FIG. 5), a lower opening and a substantially box-shaped upper plate 15 located on the upper side, and a pair of left and right side plates 16 that reinforce the outer corner portion of the upper plate 15 over a predetermined length. And.

  As shown in FIG. 2, the suspension frame 10 is configured to have a concave shape in front of the vehicle when viewed from above, and the recess 17 has a power train of an FF vehicle, particularly an engine or transmission (not shown). Is disposed.

  A twin engine mount bracket 18 is attached to the front central portion of the upper plate 15 so as to face the above-described concave portion 17, while an upper portion of the upper plate 15 is provided to correspond to the vehicle outer side of the concave portion 17. A pair of left and right tower brackets 19, 19 are attached.

  FIG. 5 is a perspective view showing only the lower plate 14. The lower plate 14 has a lower plate main portion 14a extending in the vehicle width direction, and left and right extensions extending obliquely forward from the left and right sides of the lower plate main portion 14a. 14b and 14b are integrally formed in a substantially flat plate, and at the front portion, side portion and rear portion of the lower plate 14, joint flange portions 14c, 14d, 14d and 14e are integrally raised. Yes.

  Further, on the left and right sides of the lower plate 14, a lower support as a lower support portion that supports both front and rear arm ends 3 b and 3 c (see FIG. 17) as a vehicle inner end portion of the lower arm 3 from below. Portions 14f and 14g are provided. The front lower support portion 14 f corresponds to the opening edge portion of the opening portion 14 h that allows the front side portion of the lower arm 3 to swing.

  Here, of the above-described lower support portions 14f and 14g, the left and right lower support portions 14g and 14g located on the rear side are formed so as to protrude upward from the lower plate main portion 14a so as to increase the rigidity thereof. is there. Further, the left and right lower support portions 14f and 14f located on the front side among the above-described lower support portions 14f and 14g are shown in FIG. 2 and FIG. 6 (however, FIG. 6 is a main portion along the line AA in FIG. 2). As shown in the sectional view, a lower arm support bracket 20 separate from the lower plate 14 is joined and fixed. Further, as shown in FIG. 5, the lower plate 14 is formed with a bead portion for improving rigidity and an opening portion for reducing weight.

  The above-described lower arm support bracket 20 includes a front piece 20a, a rear piece 20b, an upper piece 20c, a side piece 20d, and a joining flange portion 20e, as shown in FIGS. The outer side and the lower side corresponding to the arm end 3 b are open brackets, and the joint flange portion 20 e is joined and fixed to the lower support portion 14 f on the front side of the lower plate 14. The lower arm support bracket 20 has a predetermined plate thickness sufficient to support the vehicle inner front end portion of the lower arm 3 (for example, as an intermediate value between the plate thickness of the side plate 16 described later and the plate thickness of the lower plate 14). 2.6 mm) metal member.

  FIG. 7 is a perspective view showing a state in which the upper plate 15 is joined and fixed to the lower plate 14. The upper plate 15 corresponds to the left and right lower arms 3, 3 of the lower plate 14 and lower support portions 14g for the rear ends. It is a substantially box-shaped plate having a lower opening that extends in the vehicle width direction at a position and extends obliquely forward toward the lower support portion 14f for the front ends of the lower arms 3 and 3 (in other words, the lower arm support bracket 20). .

  That is, as shown in FIGS. 7 and 2, the upper plate 15 includes an upper piece 15a extending in the vehicle width direction, extensions 15b and 15b extending obliquely forward from the left and right sides of the upper piece 15a, and an upper piece. A vertical wall portion 15c integrally formed on the front side of the portion 15a and the inner side in the vehicle width direction of the extension portion 15b; and a vertical wall portion 15d integrally formed on the rear side of the upper piece portion 15a and the outer side in the vehicle width direction of the extension portion 15b. The flange portions 15e and 15f are integrally formed at the lower ends of the vertical wall portions 15c and 15d.

  Thus, the upper piece 15a described above extends in the vehicle width direction at a position corresponding to the left and right lower arms 3, 3 of the lower plate 14 and the lower support portions 14g, 14g for the rear end, and the above-described extensions 15b, 15b. Is formed to extend obliquely forward toward the lower support portion 14f for the front end of the lower arms 3 and 3.

  A joining piece 15g (so-called upper support part) joined to the lower arm support bracket 20 is integrally formed at the front end portions of the left and right extensions 15b, 15b in the upper plate 15, and this joining piece 15g is formed as shown in FIG. As shown in FIG. 2, the lower arm support bracket 20 is fixedly bonded to the upper piece 20c and the side piece 20d.

  Further, as shown in FIGS. 7 and 8, the joining flange portion 15 e on the front side of the upper plate 15 is joined and fixed to the joining flange portion 14 c on the same side of the lower plate 14, and the joining flange portion on the other side of the upper plate 15. 15f is joined and fixed to the lower plate main body portion 14a and the rear joining flange portion 14e of the lower plate 14.

  8 is a perspective view showing a state broken along the line BB in FIG. 2, and FIG. 9 is a cross-sectional view taken along the line BB in FIG. 8, and is based on a joining structure of the lower plate 14 and the upper plate 15. A closed cross section 21 extending in the vehicle width direction is formed between both the plates 14 and 15.

  FIG. 10 is an explanatory view for showing the closed cross-section structure in detail in the same drawing as FIG. 7 (however, the portion where the closed cross-section is formed in FIG. 10 is hatched for the sake of illustration). As shown in FIG. 10, a closed cross section 21 extending in the vehicle width direction is formed between the lower plate main portion 14 a of the lower plate 14 and the upper plate portion 15 a corresponding portion of the upper plate 15. Between the left and right extensions 14b and 14b and the left and right extensions 15b and 15b corresponding portions of the upper plate 15, closed cross sections 22 and 22 extending in the front-rear direction are formed. Are formed to be continuous.

  FIGS. 11 and 12 are perspective views showing a state in which the lower plate 14, the upper plate 15, and a pair of left and right side plates 16, 16 are combined, and the left and right side plates 16, 16 are arranged on the lower arm 3. The upper support portion 16a is provided as an upper support portion for supporting the rear arm end 3c from above, and the side plate 16 is connected to the lower plate 14 and the upper plate 15, respectively.

  That is, as shown in FIGS. 11 and 12, the side plate 16 is formed so as to extend from the upper piece portion 16b to the support portion side for the lower arm 3 front end, that is, the lower arm support bracket 20 side. An extension portion 16c, a joint flange portion 16d integrally formed on the inner side in the vehicle width direction of the upper piece portion 16b and the extension portion 16c, and a vertical wall portion 16e integrally formed on the front side of the upper piece portion 16b and the extension portion 16c. A vertical wall portion 16f integrally formed on the rear side of the upper piece portion 16b, and flange portions 16g and 16h integrally formed on both the front and rear vertical wall portions 16e and 16f, and an intermediate portion of the front flange portion 16g. Is bent into a gate shape to form a lower arm insertion portion 16i for allowing the rear portion of the lower arm 3 to be swingably inserted. Here, the above-mentioned upper support portion 16a is formed to be recessed with respect to the upper piece portion 16b so as to increase its rigidity.

  13 and 14 (however, FIG. 13 is a cross-sectional view taken along the line CC of FIG. 3, and FIG. 14 is a cross-sectional view taken along the line D-D of FIG. 3). 16 joining flange portions 16d and extension portions 16c are joined and fixed to the upper plate 15, and the vehicle outer side of the front flange portion 16g is joined and fixed to the joining flange portion 14d of the lower plate 14, and the rear flange of the side plate 16 is secured. As shown in FIG. 3, the portion 16 h is joined and fixed to the joining flange portion 14 e of the lower plate 14 and the joining flange portion 15 f of the upper plate 15, and the corner portion of the upper plate 15 is secured by the pair of left and right side plates 16. It is configured to reinforce the outside of the car.

  Further, on the upper piece portions 16b, 16b of the pair of left and right side plates 16, 16, a support portion 16m to which stabilizer support members 23, 23 (see FIG. 1) for supporting the stabilizer 11 shown in FIG. 1 are attached. 16m.

  2, 8, and 9, a pair of left and right side plates 16, 16 are disposed in the vehicle width direction in the closed cross section 21 extending in the vehicle width direction between the lower plate 14 and the upper plate 15. Reinforcement 24 as a reinforcing member is provided so as to be connected to.

  As shown in FIG. 9, the reinforcement 24 is bent at both upper and lower ends to integrally form bent portions 24a and 24b, and the upper bent portion 24a is formed on the lower surface of the upper piece portion 15a of the upper plate 15. The lower bent portion 24b is joined and fixed to the upper surface of the lower plate main portion 14a of the lower plate 14, and the reinforcement 24 is used to improve the lateral rigidity of the suspension frame 10. It is configured.

  In addition to the structure of FIG. 2, as shown in FIG. 15, the upper and lower plates 15 and 14 are joined to the left and right closed sections 22 and 22 (see FIG. 10) extending obliquely in the front-rear direction. Another reinforcement 25, 25 extending in the direction may be provided, and the left and right reinforcements 25, 25 may be configured to improve the rigidity of the suspension frame 10 in the front-rear direction.

  As shown in FIG. 13, the plate thickness t1 of the upper plate 15 is set to be thinner than the plate thickness t3 of the side plate 16, and the plate thickness t2 of the lower plate 14 is equal to the plate thickness t1 of the upper plate 15. It is set to an intermediate plate thickness with the plate thickness t3 of the side plate 16. That is, the plate thicknesses of the plates 15, 14, and 16 are set so that the relational expression of t1 <t2 <t3 is established.

  For example, the plate thickness t1 of the upper plate 15 can be set to about 2.0 mm, the plate thickness t2 of the lower plate 14 can be set to about 2.3 mm, and the plate thickness t3 of the side plate 16 can be set to about 2.9 mm.

  16 is a perspective view showing the lower arm 3 attached to the suspension frame 10 (however, the lower arm support bracket 20 is omitted), and FIG. 17 is a partial perspective view showing an enlarged main part on the right side of the vehicle in FIG. As shown in FIGS. 1 and 17, brackets 26 and 26 having a cross-sectional gate shape extending from the left and right rear portions of the suspension frame 10 to the rear and toward the vehicle exterior are provided, and the suspension frame 10 is attached via the brackets 26. By being attached to the body, the suspension frame 10 is configured to ensure the lateral rigidity.

  1 and 17, three points on one side of points P1, P2 and P3, six points in total on the left and right, are attached to the body. In the figure, arrow F indicates the front of the vehicle, arrow R indicates the rear of the vehicle, arrow OUT indicates the outside of the vehicle, and arrow IN indicates the inside of the vehicle.

As described above, the suspension frame structure of the above-described embodiment is a suspension frame structure having a closed cross-sectional structure, and the suspension frame 10 supports the front and rear arm ends 3b and 3c (see FIG. 17) of the lower arm 3 from below. Between the substantially flat plate-like lower plate 14 having lower support portions (refer to the lower support portions 14f and 14g) on the left and right sides and the lower support portions for the rear ends of the left and right lower arms 3 of the lower plate 14 (lower support). Extending in the vehicle width direction at a position corresponding to the portion 14f and 14g), extending forward toward the lower support portion (lower support portion 14f) for the lower arm 3 front end, and closed between the lower plate 14 and the lower plate 14. A substantially box-shaped upper plate 15 having a lower opening forming cross sections 21 and 22 (see FIG. 10), and the rear end of the lower arm 3 (the rear of the lower arm 3) And an upper support portion 16a as an upper support portion for supporting the arm end 3c from above, and a lower plate 14 and left and right side plates 16 and 16 connected to the upper plate 15. (See FIGS. 1, 2, 5, 10, and 17).
According to this configuration, since the suspension frame 10 is divided into the lower plate 14, the upper plate 15, and the side plates 16 and 16, the suspension frame 10 is configured without complicating the structure of the plates 14, 15, and 16. can do.
In addition, between the lower plate 14 and the upper plate 15, a closed cross-section 21 extending in the vehicle width direction and the upper plate 15 serve as a lower support portion for the lower arm 3 front end (see the lower support portion 14 f of the lower plate 14). A closed cross section 22 in the front-rear direction corresponding to a portion extending forward is formed, and the left and right side plates 16, 16 having upper support portions (see the upper support portion 16 a) are connected to the lower plate 14 and the upper plate 15. Therefore, the support rigidity of the lower arm 3 of the front suspension can be ensured by the above-described closed cross-section 21 and 22 structure and the reinforcing structure by the side plate 16.

The plate thickness t1 of the upper plate 15 is set to be thinner than the plate thickness t3 of the side plate 16 (see FIG. 13).
According to this configuration, since the plate thickness t1 of the upper plate 15 is set thin, the weight of the suspension frame 10 can be reduced. In other words, the plate thickness t3 of the side plate 16 is set to be thicker than the plate thickness t1 of the upper plate 15 to ensure the necessary strength, and the plate thickness t1 of the upper plate 15 is made smaller than the side plate 16. By doing so, it is possible to achieve both of ensuring sufficient strength for supporting the lower arm 3 of the suspension and reducing the weight of the suspension frame 10.

Further, the plate thickness t2 of the lower plate 14 is set to an intermediate plate thickness t2 between the plate thickness t1 of the upper plate 15 and the plate thickness t3 of the side plate 16 (that is, t1 <t2 <t3) (FIG. 13).
According to this configuration, since the plate thickness t2 of the lower plate 14 is set as described above, the corrosion resistance and rigidity of the lower plate 14 are ensured, sufficient strength for supporting the lower arm 3 is secured, and the suspension frame 10 is secured. The weight of the lower plate 14 can be reduced, and by setting the thickness t2 of the lower plate 14, the plating process for the lower plate 14 becomes unnecessary, and the lower plate 14 only needs to be painted, thus reducing the cost. Can be achieved.

In addition, the connecting portion (see the extension portion 16c) of the side plate 16 to the upper plate 15 is formed so as to extend to the lower arm 3 front end support portion side (lower arm support bracket 20 side) (see FIG. 2). ).
According to this configuration, the connecting portion (extension portion 16c) of the side plate 16 extends forward to the support portion for the lower arm 3 front end in the upper plate 15, so that the lateral rigidity of the lower arm 3 front end support portion is increased. Improvements can be made.

Moreover, the support part 16m of the stabilizer 11 is provided in the said side plate 16 (refer FIG. 1, FIG. 12).
According to this configuration, the above-described stabilizer 11 originally suppresses the roll angle at the time of rebound and bump of only one wheel by resistance of torsional rigidity, but the support portion 16m of this stabilizer 11 is provided with a highly rigid side plate. 16, the support rigidity of the stabilizer 11 can be ensured.

Further, a reinforcement 24 is provided in the closed section 21 between the lower plate 14 and the upper plate 15 so as to connect the left and right side plates 16 and 16 in the vehicle width direction (FIG. 2, FIG. 8, FIG. 9).
According to this configuration, since the reinforcement 24 is provided in the closed cross-section 21 so as to connect the left and right side plates 16 and 16 having high rigidity in the vehicle width direction, the rigidity of the suspension frame 10 is further improved. Can be made.

  As disclosed in the embodiment (see FIG. 15), the reinforcements 24 and 25 are respectively provided in the closed cross sections 21 and 22 of the closed cross section 21 extending in the vehicle width direction and the closed cross section 22 extending in the front-rear direction. If provided, the rigidity of the suspension frame 10 in the lateral direction and the front-rear direction can be improved.

In the correspondence between the configuration of the present invention and the above-described embodiment,
The lower support portion of the lower plate 14 of the present invention corresponds to the lower supports 14f and 14g of the embodiment,
Similarly,
The lower support part for the lower end of the lower arm corresponds to the lower support part 14g,
The lower support portion for the lower arm front end corresponds to the lower support portion 14f,
The upper support part in the side plate 16 corresponds to the upper support part 16a,
The connecting part of the side plate to the upper plate corresponds to the extension part 16c.
The present invention is not limited to the configuration of the above-described embodiment.

The perspective view which shows the whole structure of the front suspension provided with the suspension frame structure of this invention Plan view showing suspension frame structure Rear view showing suspension frame structure Left side view of FIG. Perspective view showing only the lower plate Sectional drawing of the lower arm support bracket which follows the AA line of FIG. Perspective view showing the upper plate joined and fixed to the lower plate The perspective view of the principal part fractured | ruptured by the BB line of FIG. 2 is a cross-sectional view taken along line BB in FIG. Explanatory drawing showing closed section structure Perspective view of the lower plate, upper plate, and side plate assembled Right side perspective view showing suspension frame structure CC sectional view taken along the line CC in FIG. DD sectional view taken along line D-D in FIG. Plan view showing another embodiment of the suspension frame structure A perspective view showing a state where a lower arm is disposed on a suspension frame The perspective view which expands and shows the principal part of the vehicle right side of FIG.

DESCRIPTION OF SYMBOLS 3 ... Lower arm 3b, 3c ... Arm end 10 ... Suspension frame 11 ... Stabilizer 14 ... Lower plate 14f, 14g ... Lower support part (lower side support part)
15 ... Upper plate
15a ... Upper piece
15b ... Extension
15d ... Vertical wall 16 ... Side plate 16a ... Upper support (upper support)
16b ... Upper piece (side plate upper piece)
16c ... Extension part (connection part)
16f ... Vertical wall (side plate vertical wall)
16 m ... support portions 21, 22 ... closed section 24 ... reinforcement

Claims (4)

A suspension frame structure having a closed cross-sectional structure,
The suspension frame has a substantially flat lower plate provided with left and right lower support portions for supporting both front and rear arm ends of the lower arm from below,
The left and right lower end portions of the lower plate extend in the vehicle width direction at positions corresponding to the lower support portions for the left and right lower arm rear ends, and the left and right end portions on the inner side in the vehicle width direction from the lower support portions for the left and right lower arm rear ends a substantially box-shaped upper plate of the lower openings forming a closed cross section between in a manner Ru extending forwardly, the lower plate toward the lower support portion for the lower arm front end from
The upper arm has an upper support part that supports the rear end of the lower arm from above, and is configured by left and right side plates connected to the lower plate and the upper plate,
The upper plate has, on its upper surface, an upper piece portion extending in the vehicle width direction at a position corresponding to the lower support portion for the left and right lower arms of the lower plate, and for the lower arm front end from both the left and right sides of the upper piece. And a vertical wall portion integrally formed by extending downward from the rear edge of the upper piece portion and the outer edge in the vehicle width direction of the extension portion. And the lower end of the vertical wall is connected to the upper surface of the lower plate,
The plate thickness of the upper plate and the lower plate is set to be thinner than the plate thickness of the side plate,
The side plate has the upper support portion, and has a side plate upper piece located near the upper edge of the vertical wall portion of the upper plate, and a side extending downward from the rear edge of the side plate upper piece With a plate vertical wall,
The side plate upper piece portion extends from the rear edge of the upper plate portion of the upper plate to the outer edge in the vehicle width direction that is spaced forward of the upper plate portion, and the side plate upper piece portion is The upper side plate is connected to the upper plate from the upper surface side, and the side plate vertical wall portion is connected to the lower portion of the vertical wall portion of the upper plate and is connected to the lower plate on the outer side in the vehicle width direction than the upper plate. So, the corner plate outside of the upper plate is reinforced,
The closed plane of the lower plate and Appapure DOO, reinforcement is provided so as to connect the left and right side plates in the vehicle width direction,
The reinforcement is disposed in a position to the side plates overlap the left and right in a plan view, linked <br/> suspension frame structure and lower surface and the lower plate top surface upper piece of the upper plate. 2. The suspension frame structure according to claim 1, wherein a thickness of the lower plate is set to an intermediate thickness between a thickness of the upper plate and a thickness of the side plate. A connecting portion of the side plate to the upper plate extends forward of the side plate upper piece and toward the support portion for the lower arm front end, and is connected to an outer edge of the upper plate in the vehicle width direction. suspension frame structure according to claim 1 or 2 which is formed as that. The suspension frame structure according to any one of claims 1 to 3, wherein a stabilizer support portion is provided on the upper piece of the side plate.

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