Crash barrier system with different intervals

Abstract

A crash barrier system includes upper posts, box beams, upper tube profiles and barrier rails. The box beams are connected to the upper posts on a front side of the crash barrier system. The upper tube profiles are connected to the box beams. The barrier rails are fastened to the upper tube profiles. The upper posts are arranged axially parallel to one another at a uniform axial post spacing along the box beams. The upper tube profiles are arranged axially parallel to one another at a uniform axial tube spacing along the box beams. The post spacing differs from the tube spacing.

Claims

1. A crash barrier system comprising: support posts, box beams, upper tubes, lower tubes, barrier rails, and a lower suspension, the support posts are arranged axially parallel to one another, the box beams are connected to the support posts on a front facing side of the support posts, and the box beams are mounted between the support posts and the upper tubes, the upper tubes are vertically oriented and arranged axially parallel to one another, connected to the box beams, and mounted between the barrier rails and the box beams, the barrier rails are fastened to the upper tubes, and positioned on a front facing side of the crash barrier system, and the lower suspension includes the lower tubes and is fastened to the front facing side of the support posts at a location beneath the box beams and the upper tubes, wherein the lower tubes are each oriented in the same vertical orientation as the upper tubes and are positioned at an elevation beneath the upper tubes, and the lower tubes are each shorter than the upper tubes and have a greater ductility than the upper tubes for absorbing impact energy in an event of a collision with the lower suspension.

2. The crash barrier system as claimed in claim 1, wherein the crash barrier system further comprises a lower fastening bracket and a post collision guard, and the post collision guard is fastened to one of the support posts on the front facing side near the ground by the lower fastening bracket.

3. The crash barrier system as claimed in claim 2, wherein the lower suspension includes the lower tubes and a motorcycle underride guard, the lower suspension is suspended on the post collision guard, and the motorcycle underride guard is connected to the lower tubes.

4. The crash barrier system as claimed in claim 3, wherein the box beams comprise a lower box beam and an upper box beam, and the lower box beam is arranged above the post collision guard and the upper box beam is arranged above the lower box beam.

5. The crash barrier system as claimed in claim 4, wherein the barrier rails comprise a lower barrier rail and an upper barrier rail, and the lower barrier rail is arranged above the motorcycle underride guard and the upper barrier rail is arranged above the lower barrier rail.

6. The crash barrier system as claimed in claim 5, wherein the crash barrier system further comprises an upper fastening bracket and a fastening beam, the lower barrier rail is fastened to the upper tube by the fastening beam, and the upper barrier rail is fastened to the upper tube by the upper fastening bracket.

7. The crash barrier system as claimed in claim 1, wherein the crash barrier system further comprises C-shaped rails, and the C-shaped rails are connected to the support post on a rear facing side of the crash barrier system that faces away from the front facing side.

8. The crash barrier system as claimed in claim 7, wherein the crash barrier system comprises containers which are filled with sand, water or gravel, and the containers are mounted on at least one of the support posts on the rear facing side at an elevation below one of the C-shaped rails.

9. The crash barrier system as claimed in claim 1, wherein the crash barrier system further comprises an elongate ground anchoring, and the support posts extend from the ground anchoring at an obtuse angle, with the result that said support posts are inclined with respect to the ground anchoring toward the front facing side of the crash barrier system.

10. The crash barrier system as claimed in claim 9, wherein the crash barrier system has a predetermined breaking point, and the ground anchoring and at least one of the support posts are fastened such that the predetermined breaking point is situated substantially between the ground anchoring and said at least one support post.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Exemplary embodiments of the invention are illustrated in the drawings and are described in more detail hereinbelow.

(2) FIG. 1 shows the partial sectional view of a first embodiment.

(3) FIG. 2 shows a partial plan view of the first embodiment.

(4) FIG. 3 shows a partial perspective view of the first embodiment.

(5) FIGS. 4-6 each show exploded illustrations of the first embodiment.

(6) FIGS. 7-21 show mutually corresponding views of the assembly of the first embodiment in a plurality of phases.

(7) FIGS. 22 and 23 show partial perspective views of a second embodiment.

(8) FIG. 24 shows a partial front view of the second embodiment.

(9) FIG. 25 shows a partial plan view of the second embodiment.

(10) FIG. 26 shows a partial cross section of a third embodiment.

(11) FIG. 27 shows an enlarged detail of the third embodiment.

(12) FIG. 28 shows the partial side view of a fourth embodiment.

(13) FIG. 29 shows a partial perspective view of the fourth embodiment.

(14) FIG. 30 shows the cross section of a foam block according to the fourth embodiment.

(15) FIG. 31 shows a perspective view of the foam block.

DETAILED DESCRIPTION OF THE INVENTION

(16) Referring generally to the figures, a crash barrier system 20 comprises support posts 2, box beams 5, 6, upper tubes 9, lower tubes 8, barrier rails 13, 14, and a lower suspension. The support posts 2 are arranged axially parallel to one another. The box beams 5, 6 are connected to the support posts 2 on a front facing side of the support posts 2, and the box beams 5, 6 are mounted between the support posts 2 and the upper tubes 9. The upper tubes 9 are arranged axially parallel to one another, connected to the box beams 5, 6, and mounted between the barrier rails 13, 14 and the box beams 5, 6. The barrier rails 13, 14 are fastened to the upper tubes 9, and positioned on a front facing side of the crash barrier system 20. The lower suspension includes the lower tubes 8 and is fastened to the front facing side of the support posts 2 at a location beneath the box beams 5, 6 and the upper tubes 9. The lower tubes 8 are positioned at an elevation beneath the upper tubes 9, and lower tubes 8 have a greater ductility than the upper tubes 9 for absorbing impact energy in an event of a collision with the lower suspension.

(17) FIGS. 1 to 3 show a crash barrier system 20 according to a first embodiment of the invention that is anchored at the edge of the super-elevated roadway of a motor vehicle test track. It will be appreciated that the crash barrier system 20 according to aspects of the invention is equally suited for flat roadways, for example for testing lane changing maneuvers. The support post 2 of the crash barrier system 20 is connected at an end side, the lower one as shown in the drawings, to a ground anchoring 1 (not fully illustrated in FIG. 1) of the crash barrier system 20 and screwed in such a way that the crash barrier system 20 has a predetermined breaking point 16 in this region. Here, the support post 2 and ground anchoring 1 are at an obtuse angle to one another in such a way that the support post 2 is inclined with respect to the ground anchoring 1 toward the right-hand side, as shown in the drawings, of the crash barrier system 20, which side will be referred to hereinbelow as its front side.

(18) A post collision guard 4 is fastened to the support post 2 near the ground by means of a lower fastening bracket 3. A lower tube 8 is for its part suspended on this post collision guard 4 by means of a soft suspension 7, and a motorcycle underside guard 12 is connected to the lower tube 8.

(19) A lower box beam 5 is connected to the support post 2 on the front side above the post collision guard 4, and an upper box beam 6 is in turn connected to the support post 2 on the front side above the lower box beam 5. An upper tube 9, which is longer than the lower tube 8, is for its part connected to both box beams 5, 6 and, in an alternative embodiment, can be reinforced by a possible further or additional inner tube (not illustrated in the drawing) in the upper region in order to vary or adapt the stiffness without exchanging the barrier rail.

(20) The offset, which is essential to the invention, between the support posts 2 and tubes 8, 9 which each project upward axially parallel to one another along the box beams 5, 6 is particularly evident in the plan view shown in FIG. 2: whereas the tubes 8, 9 are uniformly connected to the box beams 5, 6 at a customary axial spacing 99 of for example 1.33 m, the axial spacing 22 between adjacent posts 2 amounts to approximately 1.6 m. It will be appreciated that, instead of this, a different value pairing 22, 99 may also be used without departing from the scope of the invention. Here, the aim of the selection is always an as irregular as possible distribution of posts 2 and tubes 8, 9 in order to reduce particularly stiff sections along the crash barrier system 20.

(21) A lower barrier rail 13 is fastened above the motorcycle underride guard 12 to the upper tube 9 by means of a fastening beam 11, and an upper barrier rail 14 is in turn fastened above the lower barrier rail 13 to the upper tube 9 by means of an upper fastening bracket 10. Here, the box beams 5, 6 are arranged offset with respect to the barrier rails 13, 14 in order to avoid underriding of the crash barrier system 20 by sports cars, for instance.

(22) Two C-shaped rails 15 are connected to the support post 2 on the left-hand side, as shown in the drawings, of the crash barrier system 20hereinbelow: rear side.

(23) FIGS. 4 to 6 highlight the crash barrier system 20 when broken down into its individual parts. The elongate ground anchoring 1 can also be seen here.

(24) FIGS. 7 to 21 illustrate a possible method for assembling the above-described crash barrier system 20. It will be appreciated here that the steps of the method explained in detail below can by all means be executed in a different sequence without departing from the scope of the invention. Also conceivable are the preassembly at the factory of individual subassemblies to form semifinished products, the assembly by means of a mobile assembly station or any desired combinations of the stated approaches. Furthermore, it is clear that the number of individual parts and semifinished articles used within the assembly depend substantially on the intended length of the barrier.

(25) Elongate ground anchorings 1 are first anchored axially parallel to one another at a uniform spacing at the edge of a roadwayfor instance, an unused edge region of the roadway or the adjacent ground come into consideration. FIG. 7 illustrates this step, the ground itself not being part of the drawing.

(26) An support post 2 is then connected at an obtuse angle at the end side to each ground anchoring 1, with the result that the support post 2 is inclined with respect to the ground anchoring 1as shown in FIG. 8toward a front side of the crash barrier system 20.

(27) A lower fastening bracket 3 is now fastened to the support post 2 near the ground on the front side. FIG. 9 shows the construction after the completion of this assembly phase.

(28) A post collision guard 4 is then fastened to the lower fastening bracket 3 (see FIG. 10).

(29) A lower box beam 5 is connected above the post collision guard 4 to the support post 2 on the front side (see FIG. 11).

(30) An upper box beam 6 is connected above the lower box beam 5 to the support post 2 on the front sidewhich, as shown in the drawings, faces the observer(see FIG. 12).

(31) Soft suspensions 7 are suspended on the post collision guard 4 at a spacing which differs from the axial spacing of the posts 2 (see FIG. 13).

(32) Lower tubes 8 are suspended axially parallel to one another on the soft suspensions 7 (see FIG. 14).

(33) Above each lower tube 8, a longer upper tube 9 is connected to the box beams 5, 6 (see FIG. 15).

(34) An upper fastening bracket 10 is fastened to the upper tube 9 (see FIG. 16).

(35) A fastening beam 11 is fastened below the upper fastening bracket 10 to the upper tube 9 (see FIG. 17).

(36) A motorcycle underride guard 12 is connected below the fastening beam 11 to the lower tube 8 (see FIG. 18).

(37) A lower barrier rail 13 is fastened to the fastening beam 11 (see FIG. 19).

(38) An upper barrier rail 14 is fastened to the upper fastening bracket 10 (see FIG. 20).

(39) Finally, C-shaped rails 15 are connected to the support post 2 on a rear sidewhich, as shown in the drawings, faces away from the observerof the crash barrier system 20. FIG. 21 shows the crash barrier system 20 in this final assembly stage.

(40) FIGS. 22 to 25 illustrate the constructional features of a crash barrier system 20 according to a second embodiment of the invention that is anchored on a similar roadway. Here, in addition to the elements described, containers 17, which are filled with sand, water or gravel, are mounted below the C-shaped rail 15 on the rear side of the support posts 2. Said containers can be formed from brittle materials such as Styropor, textile fabrics, films or the like in such a way that they absorb energy during an impact and release the energy again on bursting.

(41) FIG. 26 shows a preferred embodiment of the invention in which, in order to provide additional protection for impacting vehicles, the ground anchoring 1 is concealed on both sides by curbs 18 of concrete or the like known from motorsport. In order to prevent snagging of the underfloor of impacting vehicles, the ground anchoring 1 is here additionally provided with a peripheral bevel 19 along its end face, the upper one as shown in the drawings, said bevel being evident from the detail illustration of FIG. 27.

(42) Finally, FIGS. 28 and 29 show an alternative embodiment in two illustrations corresponding to FIGS. 1 and 2. The subassembly of the soft suspension 7described above in relation to FIG. 13together with the lower tube 8 supported thereby and motorcycle underride guard 12 has been replaced here for considerations of efficiency. Stepping into its place is the foam block 35 reproduced in FIGS. 30 and 31.