WO2010133191A1

WO2010133191A1 - Vehicle restraint system

Info

Publication number: WO2010133191A1
Application number: PCT/DE2009/001468
Authority: WO
Inventors: Barbara Von Linsingen-Heintzmann; Horst Lass; Walter Klein; Werner Heimann
Original assignee: Heintzmann Sicherheitssysteme Gmbh & Co. Kg
Priority date: 2009-05-18
Filing date: 2009-10-21
Publication date: 2010-11-25
Also published as: DE102009021810A1; ES2553756T3; ZA201102186B; EP2286033A1; US20120037865A1; EP2286033B1

Abstract

A vehicle restraint system for delimiting roadways comprises guide barriers (1) which are detachably placed next to each other. Each guide barrier (1) comprises a housing-like base body (3) which can be set up on the ground (2) on pedestals (24). A pedestal (24) comprises a metal main body (25) and a ground-side elastomer body (26) connected to the main body (25). The pedestal (24) can be fastened detachably to the main body (3) by way of a connecting element (27), wherein the connecting element (27) interacts with a brace (29) on the main body (25). In particular, rubber-metal elements or buffers are used as pedestals (24).

Description

Vehicle restraint system

The invention relates to a vehicle restraint system for limiting the route according to the features in the preamble of claim 1.

A vehicle restraint system for limiting the route counts by DE 38 27 030 C2 to the prior art. The vehicle restraint system is formed by a string of adjacent barriers. Each barrier has a floor-mounted housing-like base body. As a rule, a guide rail is arranged above the base body. In the known type, the guide rail and the base body are connected by means of posts profiled in a sigmoidal profile in horizontal cross section.

DE 199 35 566 A1 discloses a vehicle restraint system with a base body which can be set up on the floor. On the base body from the Anfahrblechen outwardly directed contact plate are provided. Below the support plates extending angle iron are arranged in the longitudinal direction of the base body. At the angle iron are several in the longitudinal direction attached spaced apart profile body made of plastic over rubber.

EP 1 650 353 A2 discloses a concrete wall element for a vehicle restraint system on roads. At opposite longitudinal sides supporting elements are at least partially provided along the length thereof in the support region of the wall element, which are non-positively connected to the wall element. In the support elements elastic bearing elements are used, preferably made of an elastomer. The bearing elements cause on the one hand an elastic mounting of the wall element, whereby a depression of the same in the ground or surface is prevented, for example in an asphalt surface, when it warms up in summer and softens. Furthermore, the friction is increased by the bearing elements, which opposes a displacement of the wall element in a lateral impact of the motor vehicle increased resistance. Both manufacturing technology and handling this embodiment is expensive.

In DE 40 32 731 A1 arranged below the base body foot rests are provided with a friction-promoting, verkrallenden in the traffic route, for example, at least partially toothed bottom. However, this is unfavorable depending on the substrate for practical use.

DE 93 01 089 U1 describes a traffic guide block made of concrete or reinforced concrete with an upstanding guide body and two-sided riot points. The uprising flanks are designed as wedge-shaped flanks with tapering ramp surfaces, which are non-positively and positively connected to the guide body. The uprising edges may be made of rubber, for example.

DE 195 39 274 C2 includes a vehicle restraint system to the prior art with a housing-like base body, which is supported on bottom-side runners, wherein on the undersides of the runners friction-increasing means are provided. In DE 299 08 299 U1, the friction-increasing means are connectable to the runners connectable, preferably one-piece shoes made of an elastomer, in particular rubber or polyurethane, which engage around the runners from below positively. The connection with the runner via the shoe integrally formed on the locking pin, which engage in recesses in the bottom plate of the runners. However, it has been found that the locking pin is prone to shearing in the event of a transverse displacement as a result of an impact. The replacement and renewal of a shoe below the runner is relatively expensive.

The invention is, starting from the prior art, the object of the invention to provide a vehicle restraint system with a high resistance to transverse displacement of the baffles, which is improved application technology.

The solution to this problem consists according to the invention in a vehicle restraint system according to the features of claim 1.

Advantageous embodiments and further developments of the basic concept of the invention are the subject of the dependent claims 2 to 14.

The base body of a threshold of the vehicle restraint system stands with feet on the ground. According to the invention, the base has a metallic main body and a base-side elastomer body connected to the main body. The base is releasably fixed by means of a connecting element on the base body, wherein the connecting element cooperates with an abutment on the base body of the base. Due to the base and the bottom-side elastomeric body level compensation can be realized especially in uneven ground conditions. In addition, the elastomeric body has a high frictional resistance, so that the friction between the road surface and the vehicle restraint system is increased. The embodiment of the invention also leads to water can flow under the vehicle restraint system. Separate structural water outlets are not required.

Further advantageous is the releasable fixing of the feet on the base body. This is done via a connecting element and an abutment on the body. Thus, a simple assembly and in particular a simple replacement of the feet in case of damage are possible. It is provided in particular that the connecting element is accessible from the outside, so that the assembly or disassembly of the feet are easy to carry out.

The main body and the elastomeric body of the feet are intimately and firmly connected, in particular vulcanization technology. The intimately associated with the elastomer in the vulcanization metal surfaces of the body ensure proper power transmission.

Preferably, the connecting element is a threaded bolt and the abutment is a threaded bore in the main body. The threaded bolt can be screwed from the outside into the threaded bore of the arranged under the base body stand. It is also possible that the connecting element is a threaded nut, wherein the abutment is a threaded bolt (stud) on the body.

Appropriately, the ratio of the thickness of the body to the thickness of the elastomer body is between 1: 1 and 1: 10 dimensioned. Preferably, the ratio of the thickness of the main body to the thickness of the elastomer body is between 1: 2.5 and 1: 5.

The feet can be produced in large series. In practice, the base body made of steel and the elastomeric body made of rubber. In particular, so-called rubber-metal elements are used as feet. For use in vehicle restraint systems are particularly suitable rubber-metal elements with an elastomeric body, the one Hardness of at least 50 Shore possesses. Shore hardness refers to the resistance to the penetration of a given-shape body under a defined force. The Shore hardness scale covers a range of 0 to 100.

For practical use continue to be advantageous feet that are circular in horizontal cross-section, the abutment is located in the middle of the body. This simple but pragmatic design ensures compact feet with all-round same lifting conditions and stable power transmission, which keeps well in particular the force acting on transverse displacement of the vehicle restraint system as a result of an impact well. Appropriately, the base body and the elastomeric body have matching horizontal cross-sections.

Advantageously, the feet are arranged below below the base body transversely extending runners. Here, a pedestal is provided at each end portion of the runner. The vehicle restraint system is thereby higher, but stable due to the adjusting itself due to the feet level compensation. In particular, the coupling of the base body or barriers is easier and more stable even with uneven ground conditions. The feet and thereby higher positioning of the base body also ensure good water drainage under the vehicle restraint system. Additional or separate water outlets are not required.

Particularly advantageous embodiment of the invention makes in vehicle restraint systems noticeable, in which additionally weighting body, for example made of concrete, are arranged in the base body. It has been found that such a vehicle restraint system achieves a high resistance to transverse displacement and nevertheless shows a defined compliance behavior in the event of an impact.

Preferably, the skids of the base body oblong holes transverse to the Leitschwellenrichtung. These slots are used to hold the Fixing bolts of the feet and realize a first energy dissipation by transverse displacement of the base body on the slots in the event of a collision with a motor vehicle. The base body slips over the long holes until they stop. The feet will remain on the ground during this process. By this embodiment, impermissibly high force effects on the vehicle occupants due to the acceleration caused by the collision are avoided. These acceleration forces are demonstrated, for example, by the ASI value Acceleration Severity Index).

The invention is described below with reference to drawings. Show it:

Figure 1 is an end view of the base body of a threshold of a

Vehicle restraint system;

Figure 2 shows the base body in a longitudinal section along the line A - A of

FIG. 1;

3 shows a section through the representation of Figure 2 along the line

B - B;

FIG. 4 is a perspective view of the end section of the FIG

Basic body of a threshold in a view obliquely from below;

5 shows a vertical section through the base body in the region of a bottom-side runner;

Figure 6 in a side view of a runner and a stand together with

Mounting means in an exploded view;

7 shows the illustration according to FIG. 6 in the assembled state of FIG

components;

Figure 8 is a perspective view obliquely from below on a runner with mounted feet; Figure 9 in vertical cross section a first embodiment of a

Stand;

Figure 10 in vertical cross-section, a second embodiment of a stand and

11 shows a runner in a perspective view with oblong holes.

A vehicle restraint system according to the invention for limiting the travel path is described with reference to FIGS. 1 to 5. Each guide threshold 1 has a housing-like base body 3 which can be erected on the floor 2 with roof-shaped inclined side starting plates 4, 5, a cover plate 6 connecting the upper longitudinal edges of the starting plates 4, 5 and to the lower longitudinal edges of the starting plates 4, 5 extending from the base body 3 outwardly extending support plates 7, 8. The edge portions 9 of the support plates 7, 8 are bent slightly downwards. At the end, the base body 3 is closed in each case by a face plate 10, 11, wherein coupling elements 12, 13 for connecting the base bodies 3 in the longitudinal direction are provided with one another on the front plates 10, 11. The coupling elements are formed on the one hand by insertion pockets 12 and on the other hand by Einstecklaschen 13, which engage with each other.

Above the base body 3 can be mounted directly on the base body 3 or spaced therefrom a not shown here threshold. This is done by tie rods in the form of threaded rods. The tie rods are inserted through the guide rail and through the cover plate 6 into the base body 3 and clamped there in an arranged in the base body 3 abutment 14 consisting of an abutment plate 15 and a threaded nut 16.

To increase the stability and the resistance to transverse displacement in an impact of the base body 3 is beschwerbar. For this 3 weighting 17 are positioned in the base body. The weighting bodies 17 consist in particular of concrete and are arranged on bottom-side longitudinal rails 18.

As shown particularly in FIGS. 4 and 5, runners 19 oriented transversely to the longitudinal extent thereof are arranged below the base body 3. Each runner 19 has a horizontal bottom plate 20 and vertically upward side walls 21. The runners 19 extend transversely below the base body 3 across its width. Below the runners 19 a pedestal 24 is mounted in each case at one end portion 22, 23 of the runner 19 (Figure 8).

As a base 24 rubber-metal elements are used (see also Figure 9), which have a metallic, circular, plate-like base body 25 made of steel and a fixed to the main body 25 bottom elastomeric body 26 made of rubber. As illustrated in particular with reference to FIGS. 6 and 7, the feet 24 are fastened releasably under the runners 19 by means of connecting elements 27. The connecting element 27 consists of a threaded bolt 28 which cooperates with an abutment 29 in the form of a threaded bore 30 on the base body 25. For this purpose, the threaded bolt 28 is screwed from above with the inclusion of a washer 31 through the bottom plate 20 in the threaded bore 30 on the base body 25 of the base 24.

Another embodiment of a pedestal 32 is shown in FIG. Here, the abutment 29 is formed on the base body 25 by a protruding from the main body 25 upwardly threaded bolt 33. In this case comes as a connecting element 27 here indicated a threaded nut 34 is used, which is screwed from above onto the threaded bolt 33 and the base 32 clamped to the base body 3 and the runner 19.

The elastomeric body 26 has a hardness of at least 50 Shore, preferably 55 Shore to 70 Shore. The main body 25 has a thickness D _G and the elastomer body 26 has a thickness DE. The ratio of the thickness DG of the main body 25 to the thickness D _{E of} the elastomeric body 26 is between 1: 1 and 1:10, in particular between 1: 2.5 and 1: 5.

It can be seen that the feet 24, 32 are circular in horizontal cross-section and that the abutment 29 is arranged in the middle of the main body 25, wherein the main body 25 and the elastomer body 26 have matching horizontal cross-sections.

It can also be seen from FIGS. 2, 4 and 5 that the longitudinal rails 18 project below the weighting bodies 17 each with their ends 35 opposite the weighting body 17. With the ends 35, the longitudinal rails 18 engage under the bottom plate 20 of the runner 19 and are there bolted to the skids 19.

Figure 11 shows a perspective view of a runner 19 with slots 36 which extend both in a central region in the direction of the barrier 1 and at lateral regions transverse to the barrier 1. The feet 24 are screwed into the oblong holes 36 in the lateral areas with the threaded bolt 28.

REFERENCE CHARACTERS:

1 - threshold

2 - floor

3 - base body

4 - starting plate

5 - starting plate 6 - cover plate

7 - contact plate

8 - contact plate

9 - edge section 10 - face plate

11 - face plate

12 - coupling element

13 - coupling element

14 - abutment

15 - abutment plate

16 - threaded nut

17 - weighting body

18 - longitudinal rail

19 - skid

20 - bottom plate

21 - side wall

22 - end section

23 - End section 24 - Stand

25 - basic body

26 - Elastomer body

27 - connecting element

28 - threaded bolt 29 - abutment

30 - tapped hole 31 - Washer

32 - stand

33 - threaded bolt

34 - threaded nut 35 - end of v. 18

36 - long hole

D _G - thickness v. 25 D _E - thickness v. 26

Claims

claims

1. Vehicle restraint system for limiting the route, which consists of releasably interconnected guide baffles (1), each guide sill (1) on the floor (2) on feet (24, 32) can be erected housing-like base body (3), characterized in that each Stand (24, 32) comprises a metallic base body (25) and a base body (25) connected to the bottom elastomeric body (26) and the stand (24, 32) by means of a connecting element (27) releasably on the base body (3) can be fixed, wherein the connecting element (27) cooperates with an abutment (29) on the base body (25).

2. Vehicle restraint system according to claim 1, characterized in that the base body (25) and the elastomeric body (26) are firmly connected to each other.

3. Vehicle restraint system according to claim 1 or 2, characterized in that the connecting element (27) is a threaded bolt (28) and the abutment (29) has a threaded bore (30) in the base body (25).

4. Vehicle restraint system according to claim 1 or 2, characterized in that the connecting element (27) has a threaded nut (34) and the abutment (29) is a threaded bolt (33) on the base body (25).

5. Vehicle restraint system according to one of claims 1 to 4, characterized in that the base body (25) has a thickness (DQ) and the elastomeric body (26) has a thickness (D _E ), wherein the ratio of the thickness (DG) of the base body (25) to the thickness (D _E ) of the elastomeric body (26) is dimensioned between 1: 1 and 1:10.

6. Vehicle restraint system according to claim 5, characterized in that the ratio of the thickness (D _G ) of the base body (25) to the thickness (D _E ) of the elastomeric body (26) between 1: 2.5 and 1: 5 is dimensioned.

7. Vehicle restraint system according to one of claims 1 to 6, d a d u r c h characterized in that the base body (25) consists of steel.

8. Vehicle restraint system according to one of claims 1 to 7, characterized in that the elastomer body (26) consists of rubber.

9. Vehicle restraint system according to one of claims 1 or 8, characterized in that the elastomeric body (26) has a hardness of at least 50 Shore.

10. Vehicle restraint system according to one of claims 1 to 9, characterized in that the feet (24, 32) are designed to be circular in horizontal cross-section and the abutment (29) in the middle of the base body (25) is arranged.

11. Vehicle restraint system according to one of claims 1 to 10, characterized in that the base body (25) and the elastomeric body (26) have matching horizontal cross-sections.

12. Vehicle restraint system according to one of claims 1 to 11, characterized in that the feet (24, 32) below are arranged below the base body (3) transversely extending runners (19).

13. Vehicle restraint system according to one of claims 1 to 12, characterized in that in the base body (3) at least one weighting body (17) is arranged.

14. Vehicle restraint system according to claim 12, characterized in that the feet (24) are mounted on oblong holes (36) of the skids (19).