BUMPER WITH AN INTEGRATED REINFORCING PLATE

Abstract

The present invention relates to a bumper crossmember 2 for a motor vehicle, which bumper crossmember 2 extends in the motor vehicle transverse direction and has a hollow profile in cross section, which hollow profile has, in particular, a rectangular cross section. A reinforcing plate 5 is inserted in a middle length portion, the depth T of the reinforcing plate 5 decreasing in the motor vehicle longitudinal direction X toward the ends of the reinforcing plate 5.

Claims

1. Bumper crossmember for a motor vehicle, which bumper crossmember extends in the motor vehicle transverse direction and has a hollow profile in cross section, in particular a rectangular cross section, characterized in that a reinforcing plate is inserted in a middle length portion, the depth of the reinforcing plate decreasing in the motor vehicle longitudinal direction toward the ends of the reinforcing plate.

2. Bumper crossmember according to claim 1, wherein the hollow profile is configured as a top hat profile, preferably with a striking plate.

3. Bumper crossmember according to claim 1, wherein the striking plate is arranged so as to point toward the front in the motor vehicle longitudinal direction.

4. Bumper crossmember according to claim 1, wherein the reinforcing plate is profiled in cross section, in particular is configured in a W-shaped manner.

5. Bumper crossmember according to claim 1, wherein the reinforcing plate extends in the motor vehicle transverse direction (Y) over a length (L) between 20 and 50%, preferably between 20 and 40% of the length of the bumper crossmember.

6. Bumper crossmember according to claim 1, wherein, in cross-section, the reinforcing plate has at least two limbs which are arranged in parallel or at an angle of no more than ±20° with respect to an upper flange and a lower flange of the bumper crossmember.

7. Bumper crossmember according to claim 1, wherein the tapering of the cross section of the reinforcing plate configures a greater spacing from a rear wall of the hollow profile of the crossmember, in relation to a middle portion.

8. Bumper crossmember according to claim 1, wherein the tapered ends of the reinforcing plate are produced by way of a cutting method, or in that the tapered ends of the reinforcing plate are produced by way of flattening or stamping, or the reinforcing plate is produced using press molding.

9. Bumper crossmember according to claim 1, wherein the reinforcing plate is coupled, in particular welded, to the front wall in length portions.

10. Bumper crossmember according to claim 1, wherein the crossmember has a soft zone in a middle length portion in an upper flange and/or in a lower flange.

11. Bumper crossmember according to claim 1, wherein the bumper crossmember is configured by way of a top hat profile with a closing plate which lies at the front, the reinforcing plate being coupled to the closing plate.

12. Bumper crossmember arrangement, wherein it has a bumper crossmember with the features of at least claim 1, which bumper crossmember is coupled to crash boxes.

13. Bumper crossmember arrangement according to claim 12, wherein the crash boxes have relieving elements in a front region on their sides which point toward one another.

Description

IN THE FIGURES

[0021] FIG. 1 shows a bumper carrier arrangement according to the invention in a plan view,

[0022] FIG. 2 a to c show different cross-sectional views,

[0023] FIG. 3 a to c show alternative cross-sectional views,

[0024] FIG. 4 a to c in turn show alternative cross-sectional views,

[0025] FIG. 5 shows an alternative design variant of the bumper carrier arrangement in a plan view,

[0026] FIG. 6 a to d show different cross-sectional views than FIG. 5,

[0027] FIG. 7 a and b show a comparison of a bollard test of a bumper crossmember according to the prior art and according to the present invention, and

[0028] FIG. 8 shows one embodiment of soft zones on the bumper crossmember.

[0029] The same designations are used in the figures for identical or similar components, even if a repeated description is dispensed with for reasons of simplicity.

[0030] FIG. 1 shows a bumper crossmember arrangement 1 in a plan view. The bumper crossmember 2 is coupled to crash boxes 3. The bumper crossmember arrangement 1 is then coupled to a motor vehicle body (not shown in greater detail). The bumper crossmember 2 has a substantially curved course over its length. A middle length portion 4 can also be of substantially straight configuration.

[0031] In a middle length portion 4, a separate reinforcing plate 5 (shown here) is arranged in the bumper crossmember 2 and is coupled to the closing plate 13. The closing plate 13 with the reinforcing plate 5 is in turn coupled to the front wall of flanges of the bumper crossmember 2. The reinforcing plate 5, the closing plate 13 and the bumper crossmember 2 or the hollow profile of the bumper crossmember 2 are therefore three separate components. At the respective ends 7 of the reinforcing plate 5, the reinforcing plate 5 is of tapered configuration in its depth T. The depth T is oriented substantially in the motor vehicle longitudinal direction X. The middle length portion 4 has a longitudinal extent of approximately from 20% to 50%, in particular from 20% to 40% of the length L of the bumper crossmember 2. The length L relates to the motor vehicle transverse direction Y.

[0032] As a result of the tapered ends 7, the spacing A increases between a rear wall 8 of the bumper crossmember 2 and the respective tapered end 7. Over the entire longitudinal course, the reinforcing plate 5 particularly preferably has no direct contact with the rear wall 8 of the bumper crossmember 2.

[0033] Furthermore, a respective length portion is configured as a welded length portion 9, in which the reinforcing plate is welded to the closing plate 6. The welded length portions 9 are particularly preferably from 5% to 20%, in particular from 5% to 10% of the middle length portion 4. A non-welded length portion 10 which lies in between can therefore be deformed in the case of a crash, or the front wall 6 and the reinforcing plate could move relative to one another.

[0034] Furthermore, relieving elements 20 can particularly preferably be arranged on the side walls of the crash box 3 which face one another. The relieving elements 20 can be configured, for example, as a slit, slot, round hole or else an embossed portion. Targeted weakening of the crash boxes 3 takes place here. In the case of the crash shown in FIG. 7, the crash boxes 3 can therefore move toward one another, and therefore likewise promote a deflection of the bumper carrier 2, in particular according to FIG. 7b.

[0035] FIG. 2 a, b and c show respective crossover sectional views. It can be seen that the bumper crossmember 2 is a closed hollow profile in its cross section. This is configured from a top hat-shaped profile 14 which forms the rear wall 8, an upper flange 11 and a lower flange 12. The front wall 6 is configured by a closing plate 13. The closing plate 13 is coupled to the top hat profile 14, in particular flanges of the top hat profile. In accordance with the sectional lines from FIGS. 2b and 2c, the reinforcing plate 5 is shown in the hollow profile. FIG. 2b shows an end region 7 of the reinforcing plate 5. This has a depth T7 in the end region 7, which depth T7 is smaller than the depth T in the middle region. The depth T in the middle region is preferably configured to be from 70% to 100%, very particularly preferably from 80% to 95% and, in particular, approximately from 85% to 95% of the depth T2 of the bumper crossmember 2 in this region. Therefore, no direct contact with the rear wall 8 is configured. The depth T7 then decreases toward the end regions. The spacing A from the rear wall 8 increases. It is shown here that the W-shaped cross section of the reinforcing plate 5 decreases in its depth T from the middle region according to FIG. 2c toward the end regions 7 according to FIG. 2b. Welded joints 19 are configured, in particular, on all the bearing faces of the W-shaped profile on the front wall 6. According to FIG. 2c, no welded joint is configured, with the result that a relative displacement of the reinforcing plate 5 and the front wall in the case of a crash is also possible here, in particular in the motor vehicle transverse direction. The cross section is maintained, however.

[0036] An alternative design variant is shown in FIG. 3 a, b and c. Here, the cross section of the reinforcing plate 5 according to FIG. 3b is flattened or stamped.

[0037] FIG. 4 a, b and c show an alternative design variant. Here, the end region 7 of the reinforcing plate 5 is cut, with the result that parts of the W-shaped cross section are cutaway or cut off.

[0038] FIG. 5 shows an alternative design variant to FIG. 1. The ends 7 of the reinforcing profile 5 are adjoined by a further length portion which in turn has a depth T in the cross section of the reinforcing profile, which depth T is, in particular, increased in comparison with the tapered ends 7. This is shown in accordance with the sectional line D-D from FIG. 6d. Here, the depth T15 in turn corresponds to the depth T of the reinforcing plate 5 in the middle portion according to FIG. 6c. As a result, additional stiffening or reinforcement can be achieved for different crash scenarios, for example the RCAR bumper test.

[0039] The effect according to the invention is then shown in comparison in FIG. 7a and b. The bumper arrangement 2 is pressed in on account of a bollard or pole 16 or experiences bending or curved deformation. A kink point 17 is produced according to FIG. 7a. Either no reinforcing plate is used or a reinforcing plate 5 without tapering ends is used here.

[0040] According to FIG. 7b, the rear wall of the bumper crossmember 8 is deformed onto the tapered ends 7 of the reinforcing plate 5. As a result, buckling is avoided. The front wall 6 and the rear wall 8 can be displaced in each case relative to the reinforcing plate 5 and the motor vehicle transverse direction. This takes place on the rear wall 8 according to the principle of a tie rod. Slight bulges 18 result on the front wall 6, but no kink point or buckling is brought about. As a result, it is achieved according to the invention that a deformed deformation for energy dissipation is provided, without the bumper crossmember 2 piercing.

[0041] FIG. 8 shows a bumper arrangement 2. Here, a soft zone is configured in the upper flange 11 over a length L8 which particularly preferably corresponds to from 20% to 40% of the length of the spacing A2 between the crash boxes. In this soft zone, the material properties are changed; in particular, the tensile strength is reduced. This soft zone can also be present in the lower flange 12 (not shown in greater detail). The crash scenario according to FIG. 7b and, as a consequence, the bending around the pole are promoted by way of the presence of the soft zone.

[0042] FIG. 9a and b show a closing plate 13 in a rear view and a perspective detailed sectional view. The closing plate 13 has a curved course. The reinforcing plate 5 is arranged with its tapered ends 7 on a rear wall 21 of the closing plate 13 itself. In particular, the reinforcing plate 5 according to FIG. 9b is joined, in particular welded, at the tapered ends 7 to a rear wall 21 of the closing plate 5. Prepared in this way, the closing plate 13 can then be inserted into a top hat profile 14, and the closing plate 13 can in turn be joined thermally at least in length portions to flanges of the top hat profile 14. Optimum positioning and mounting of the reinforcing plate 5 take place as a result.

[0043] The ream forcing plate 5 is itself of top hat-shaped configuration at least in length portions in this case according to FIG. 9b. The reinforcing plate 5 can therefore be manufactured simply using pressing technology as a sheet metal component, in particular a steel sheet component.

LIST OF DESIGNATIONS

[0044] 1 - Bumper crossmember arrangement [0045] 2 - Bumper crossmember [0046] 3 - Crash box [0047] 4 - Middle length portion [0048] 5 - Reinforcing plate [0049] 6 - Front wall of 2 [0050] 7 - End of 5 [0051] 8 - Rear wall of 2 [0052] 9 - Welded length portion [0053] 10 - Non-welded length portion [0054] 11 - Upper flange [0055] 12 - Lower flange [0056] 13 - Striking plate [0057] 14 - Top hat profile [0058] 15 - Further length portion [0059] 16 - Bollard/post [0060] 17 - Kink point [0061] 18 - Bulge [0062] 19 - Welded joint [0063] 20 - Relieving element [0064] 21 - Rear wall of 5 [0065] A - Spacing [0066] T - Depth [0067] T7 - Depth of 7 [0068] T15 - Depth of 15 [0069] L - Length of 2 [0070] X - Motor vehicle longitudinal direction [0071] Y - Motor vehicle vertical direction