EP1186714A2 - Guardrail end terminal - Google Patents

Abstract

The guide element (1) for the beginning or end of a safety strip for roadways (F) comprises at least one deformation section (2a) which is located between the fixing section (12) and the element's side facing the roadway.

Description

The invention relates to a guide element for protective devices for traffic routes according to the preamble of claim 1 and protective devices with such a guide element.

For the design of the start or end areas of protective devices (Guardrails) on traffic routes so far usual, the plate-shaped running parallel to the traffic route Guardrails horizontally towards the ground in one bend an obtuse angle and lead to the floor, this beginning or end area of the protective device forms a kind of ramp.

The disadvantage of the construction mentioned is the ramp effect for motor vehicles that, in an unfavorable case, e.g. drive up this ramp on narrow country roads and as a result, can tip over sideways. As a result, correspond to the traditional start or end ranges of Protective devices no longer meet the requirements of the EU RO standard 1317-4 from September 1998 for restraint system Roads.

The invention is based, an initial and To provide the end piece for a protective device, that the protective effect for impacting vehicles in the Improved start and end area of a protective device.

According to the invention, this object is achieved by a guide element with the features of claim 1, a protective device with the features of claim 29 and a protective device solved with the features of claim 33. preferred and advantageous embodiments of the invention specified in the subclaims.

Thereafter, in a first aspect of the invention is a guide element for the start or end area of a protective device provided for traffic routes, which is an outer shell has an exterior facing the traffic route Profile tape and an interior facing away from the traffic route Includes ribbon. The inner profile band is at least via a fastening area on an anchor in the floor or on other parts of the protective device mountable. Through the between the outside and inner profile band created deformation area the impact of a vehicle as if by a compliant Buffer braked and redirected. This causes the impact less hard and the deformations bouncing Vehicle and the acceleration forces acting there reduced. This can be done by absorbing impact forces Risk of serious injury to people in the vehicle be lowered.

The inner profile band facing away from the traffic route is included preferably formed stronger than the outer profile band, so that it's most of the not through the deformation area absorbed residual energy from an impact and to the releases anchorages connected to the inner profile band. The front profile band, however, can be made thinner and possibly even be made of plastic.

According to the invention it is sufficient that in any Area between the outside of the guide element and the Fastening area formed a deformation area is. The attachment area can be the attachment of the Guide element on a post, but also on the attachment natural obstacles or other parts of the protective device serve. The only important thing is that at the fastening area in the event of an impact by a vehicle a counterforce is provided.

The guide element according to the invention is in contrast to that end piece known from the prior art not in Lowered towards the road, but indicates the height of the adjoining protective device. A disadvantageous ramp effect is thus eliminated.

In an advantageous embodiment, the guide element has towards its free end, i.e. the completion of the Protective device increasingly away from the road. Thereby becomes a side-impacting vehicle on the road redirected. There is thus a deflection of the Lane of the vehicle has returned to the lane combined with an energy absorption through the deformation of the guide element.

The guide element preferably has a substantially longitudinal section drop or banana-shaped outer shell on, in which is the deformation area. This shape is easily manufactured by e.g. Bending a single sheet in the form of drops or bananas. However, it is also possible this form through several possibly prefabricated elements produce, for example a drop or Banana-shaped body attached to a curved guardrail becomes.

A banana shape is understood to mean a shape in which the inner profile band and the outer profile band are bent, but essentially over long distances have the same distance from each other. this makes possible it, several damping elements of the same size between to arrange the profile strips. Since the damping elements can have the same size is their large-scale Mass production much more interesting than one Shape in which the distance between the profiled strips changes changes.

The outer shell is in a preferred embodiment executed in several parts, which means the use of different Materials or different thicknesses of a material allowed. For example, an inner profile band the stability and have the profile of a common guardrail, while an outer profile band only as a cover for the deformation area works and e.g. formed as a plate-shaped band is. In a further advantageous embodiment encloses the side of the outer shell facing the traffic route the deformation area completely.

The deformation region preferably has one or more Damping elements on, by their deformation during the Impact additional energy is absorbed, so that the Impact is softer. The damping elements exist in a preferred embodiment of the invention made of plastic. For example, due to good processability Polypropylene or polyvinyl chloride used. in principle however, any plastics can be used. As well is the design and arrangement of the damping elements any. Preferred arrangements of the damping elements are here a honeycomb or half-timbered structure.

The design of the damping elements is advantageous as tubular elements with a preferred diameter of 10 up to 30 cm.

In a particularly advantageous embodiment, a plastic insulation material, for example a plastic foam, is provided in the deformation area, which completely or partially fills the deformation area. This plastic foam can be arranged alternatively or in addition to the deformable damping elements. An energy-absorbing plastic foam, for example based on polyolefins, polyurethane or styrene polymers, with a specific energy absorption of at least 1 * 10 ^-5 , preferably 4 * 10 ^-5 J / mm ³ and a compression set at 50% compression of less than 50% is preferred. , preferably less than 40%.

The specific energy consumption is according to EN 826 at a Test speed of 50 mm / min measured, the compression set according to DIN 53 572 at 50% compression 24 hours after Discharge. Polypropylene particle foam is particularly preferred with a density of 15 to 150 g / l, preferably from 20 to 100 g / l. This has compared to other plastic foams the advantage of a very high energy absorption, good resilience, excellent media and weather resistance and low water absorption. It is also recyclable, which is an advantage is when the damping elements and possibly also the outer profile band also as a plastic base polypropylene to have.

A typical polypropylene particle foam is NEOPOLEN P from BASF AG. At a density of 20 g / l it has a spec. Energy consumption of 7.5 * 10 ^-5 J / mm ³ and at 80 g / l of 50 * 10 ^-5 J / mm ³ . The compression set values range from 27 to 30%.

The use of plastic is not on the inner area of the guide element limited. In particular, can be provided be that the side facing the traffic route of the guide element, i.e. the outer profile band also Plastic is made. For this area of application is preferred hard plastic used to the impacting vehicle to oppose sufficient resistance. The one behind it Damping element is preferably made of plastic insulation material.

In a further advantageous embodiment, the Side of the outer shell facing the traffic route together with prefabricated the damping element as a module. The assembly this makes it much easier on site.

The guide element faces the traffic route Outside preferably reflectors attached or embedded on which the vehicle drivers get to the start early a protective device.

In another preferred embodiment, there is Damping element made of metal, with vertically running Damping parts are provided. This leaves a material saving and diverse design too, since also a relative thin-walled design of the damping elements such as is very stable with simple struts.

To ensure sufficient stability of the guide element against To ensure tilting, there is the traffic route opposite side of the guide element on which the fastening area for connection to a post or for anchoring is formed in the bottom, preferably made of metal, in particular Steel.

In a particularly preferred embodiment of the invention a guide element is provided in which at least two Damping elements designed as tubular elements and immediately on the inside of the traffic route Side of the outer shell spaced apart are. In addition to the pipe elements, the deformation area contains a plastic insulation material that is preferred in Form of plastic foam segments between the inner Profile tape and the outer profile tape is introduced.

The distance between the inner profile band and the outer Profile tape is largely constant (Banana shape), whereby plastic foam segments are the same Size are arranged between the profile strips. this will thanks to the equidistant spacing of the profile strips. There is also an equidistant distance between the profile strips then makes sense if no additional pipe elements are provided are, since he uses identical plastic foam segments or other damping elements allowed.

Another variant of the invention provides between the Fastening area of the guide element and the post for to arrange the anchorage in the floor a spacer. This allows them to hit the post in the event of a collision acting forces are changed and adjusted. The Fastening area of the guide element is with the Spacer connected.

In a further preferred embodiment, that of region of the guide element facing away from the traffic route assigned additional deformation body, which is preferred on an obstacle, such as a tree, or this is adjacent. This allows the traffic route Obstacles facing away from the guide element like trees additionally protected or for inclusion and redirection of forces in the event of a collision.

Another embodiment of the guide element is a plate-shaped one Intermediate piece in a transition area between the guide element and the end of the usual protective device in front. The transition area serves to adapt the closing area to differently standardized control systems with A-planks, B-planks or box profiles.

You add two guiding elements to the protective device end facing each other, you get a double-sided Vane. This provides a separate protective device, e.g. on country roads, for example on individual roads or several side by side obstacles, such as Trees or pillars. In particular on avenue trees this gives an excellent indirect Impact protection. The length of the protective device can be in in this case 3 to 10 m, preferably 4 to 6 m. The protective device is also in the inner-city area can be used, for example in front of masts, posts, traffic signs Trees or on excellent building corners. there can be provided that two guide elements by a straight or slightly curved center piece connected are.

For the intended use of an inventive Ensuring the guiding element is a protective device provided that at its beginning or end with a such guide element according to the invention is provided. This Protective device has at least one post that connected to the guide element and so anchored in the ground is that in the event of a vehicle collision, the entire Start or end section of the protective device from the traffic route gives way directed. This does one The vehicle slides along the protective device or its return to the traffic route. Giving in to the Protective device is preferred by a horizontal one Bendability of the post achieved.

In the event that the protective device in its initial or End section is supported by several posts the posts are preferably designed differently compliant. The first or last post of the protective device evades the most in the event of an impact. The Compliance decreases in the direction of the protective device, so that a vehicle increasingly along the protective device is directed. This is a redirection of a vehicle the traffic route is also possible after a major collision.

This effect is exacerbated when a post two Bending axes across which the post is different is highly bendable. Anyway the front post will in the event of an impact over the bending axis of lower rigidity bent. The rear posts are possibly over the bending axis higher rigidity bent, the posts each are to be fastened accordingly to the guide element. The the second bending axis of higher rigidity sets the impinging one Force a higher resistance, so that the Posts to a lesser extent than bent over the first bending axis becomes.

Suitable post profiles for the training of different rigid bending axes are a C-profile, double-T profile or sigma profile.

Figur 1

-einen Längsschnitt durch eine erste Ausführungsform eines Leitelementes,

Figur 2

-eine Schnittdarstellung entsprechend der Linie A-A des Leitelementes der Figur 1,

Figur 3

-einen Längsschnitt durch eine weitere Ausführungsform eines Leitelementes,

Figur 4

-eine Schnittdarstellung entsprechend der Linie B-B des Leitelementes der Figur 3

Figur 5

-einen Längsschnitt durch einer weitere Ausführungsform eines Leitelementes,

Figur 6

-eine Schnittdarstellung entsprechend der Linie C-C des Leitelementes der Figur 5,

Figur 7

-einen Längsschnitt durch eine weitere Ausführungs form eines Leitelementes,

Figur 8

-ein doppleseitiges Leitelement,

Figur 9

-eine Schutzeinrichtung vor einem Aufprall,

Figur 10

-eine Schutzeinrichtung nach einem Aufprall,

Figur 11

-einen Längsschnitt durch eine weitere Ausführungsform eines Leitelementes,

Figur 12

-eine Schnittdarstellung entsprechend der Linie D-D des Leitelementes der Figur 11,

Figur 13

-einen Längsschnitt durch eine besonders bevorzugte Ausführungsform und

Figur 14

-eine Schnittdarstellung entsprechend der Linie E-E des Leitelementes der Figur 13.

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawings. Show it:

Figure 1

a longitudinal section through a first embodiment of a guide element,

Figure 2

1 shows a sectional view along line AA of the guide element in FIG. 1,

Figure 3

a longitudinal section through a further embodiment of a guide element,

Figure 4

a sectional view along the line BB of the guide element of Figure 3

Figure 5

a longitudinal section through a further embodiment of a guide element,

Figure 6

5 shows a sectional representation along the line CC of the guide element in FIG. 5,

Figure 7

a longitudinal section through a further embodiment of a guide element,

Figure 8

-a double-sided guide element,

Figure 9

-a protective device against an impact,

Figure 10

-a protective device after an impact,

Figure 11

a longitudinal section through a further embodiment of a guide element,

Figure 12

11 shows a sectional illustration along line DD of the guide element of FIG. 11,

Figure 13

a longitudinal section through a particularly preferred embodiment and

Figure 14

13 shows a sectional representation along the line EE of the guide element in FIG. 13.

Figure 1 shows a first embodiment of the invention Guide element 1 for the beginning or end of a Protection device for traffic routes. The guide element 1 has a teardrop-shaped outer shell, which is shown in the Embodiment by a curved end piece 5a usual protective device 1a and a bent sheet metal element 3a is formed. The end piece 5a is a Profile strip facing away from the traffic route and the sheet metal element 3a represents a profile band facing the traffic route, both Profile strips 5a, 3a together the outer shell of the guide element 1 form.

The outer shells 3a, 5a envelop a deformation area 2a, which serves the absorption and absorption of forces that especially when a vehicle collides with the sheet metal element 5a arise.

The traffic route is shown schematically and with F designated.

The sheet metal element 3a is a slightly curved plate-shaped one Element that the outer shell of the traffic route Side of the guide element closes. It is for one with section 1a of the protective device and the other connected to the end of the bent portion 5a is. Grasp the edges of the long side of element 3a the material of the deformation region 2a slightly to keep this safe.

The deformation area 2a is in this embodiment completely filled with plastic. Preferred materials for this are PVC or PP, or PP particle foam.

Posts are located on the outside of section 5a 4a, through which the guide element is anchored to the floor. They have a U-shaped profile and their connection to the Guide element takes place in a manner known per se via only schematically illustrated mounting areas 12 of the Guide element 1. The deformation area 2a is between the Outside 3a (i.e. the side facing the traffic route) of the Guide element and the fastening areas 12 are formed. In the event of a collision with a vehicle that has lost its way is anchored in the floor or the posts 4a a counterforce counteracting an impact force is provided, so that a deformation of the deformation area he follows.

The profile of the protective device 1a is in the sectional view of Figure 2 can be seen. It is easy to see that between the sheet metal element 5a with the profile 5.1a (a usual guardrail) and the sheet metal element 3a made of plastic existing deformation area 2a extends.

FIG. 3 shows another embodiment of a guide element, in which the guide element on a straight end piece 1b connects and prefers a conventional protective device with this via fasteners, not shown connected is. A hook-shaped bent steel element 5b forms the analog to section 5a of the example from FIG side of the guide element facing away from the traffic route. On Forms plastic element 3b with a plastic filler 2b the deformation area and the one facing the traffic route Side of the guide element.

From the sectional view 4 of this embodiment it can be seen that the plastic element 3b with the plastic completely filled deformation area completely encased, the cross section of this plastic element 3b is essentially rectangular. The plastic element 3b with a deformation area 2b is preferred a prefabricated module that attaches to the steel element 5b is attachable.

Profile 5.1b of the steel element is analogous to the profile 5.1.a of Figure 1 shaped. In a transition area X, the parallel to the guide device 1b are for stiffening Struts 6b formed. The transition area ensures a firm connection of the guide element 1 with the control facility. Corresponding connection points are not shown in Figure 3 for the sake of clarity.

Figures 5 and 6 show an embodiment that in essentially corresponds to that of Figure 1. An outer shell is here only by a single continuous sheet metal element 5c shaped. The sheet metal element 5c also encloses the Deformation area 2c completely filled with plastic vertical. The guide element is with the end piece of a protective device 1c connected by a transition piece 7c, the for example for a profile adjustment.

At this point it should be noted that the interior of the guide element 1 is not necessary with a deformation body must be filled. It can also be hollow his. The mere provision of a cavity between one the area facing the traffic route and an area facing the traffic route facing surface ensures deformation and the absorption of deformation forces by the guide element. For the purposes of the invention, a cavity or a at least partially enclosed area formed as Deformation area to look at. Also a deformation pillow the guide element which does not form a cavity, is particularly attached to a common guardrail, represents a range of deformation in the sense of the invention represents.

In the embodiment of Figure 7, the guide element made entirely of steel. The end piece 5d of a protective device 1d is pointing and bumping away from the traffic route with its returned end again against the protective device 1d. The enclosed space, which is a deformation area 2d is analogous to the other exemplary embodiments drop-shaped.

Tubular elements act here as damping elements 2.1.d, whose axes are aligned vertically. You fill the deformation area 2d almost completely. A Bracing 6d leads to an additional stiffening.

In this embodiment, a connection is made between the guide element and the posts 4d via spacers 8d. This will transfer the power to the Post changed. The spacers engage the traffic route facing away from the outer shell. The connection is also only shown schematically here.

The embodiment of Figure 8 shows a double-sided Guiding element consisting of two individual guiding elements corresponding to the embodiments of Figures 1 to 7 can be formed, is composed. The front one Outer shell and the section connecting the two guide elements is here as a single arched curve Part 3e trained. With this double-sided guide element can be a single standing obstacle, for example a Tree, to be shielded separately. An additional protective device is not necessary. With 2e and 2.1e are different Deformation body called.

Figures 9 and 10 schematically show an inventive Protective device 1f, in its beginning or end area has a guide element of one of the types mentioned. The protective device is in the ground via several posts 4f anchored between the guard and the floor are visible. At the beginning or end of the area it shows drop-shaped trained guide element by a curvature of the Outer shell 3f away from the traffic route.

The posts 4f are resiliently anchored in the ground, specifically such that the flexibility of the posts in the direction of Initial section of the protective device increases, the first post of the protective device the greatest compliance having. Posts are used, the two Have bending axes across which the posts differ are strongly bendable. The posts will be in the ground like this and placed in relation to the guide element that in the event of a collision a bending over the bending axis of less stiffness he follows. The posts have a cross section, for example a C-profile, double-T profile in a manner known per se or sigma profile.

After an impact, as shown in Figure 10, the Posts bent horizontally and point away from the traffic route. The posts closer to the start or end section are bent more than those in the direction of the main part of the protective device. The one Traffic route-facing side of the outer shell 3f of the guide element is also badly deformed that the traffic route opposite side of the outer shell 5f has almost its shape to keep.

A vehicle that is in the y-direction on the protective device bounces, this protective device deforms in the y direction. Since the guide element forming the beginning or end piece together with the first post is very compliant opposed to the vehicle only as much resistance that it is slowed down slightly. The first post gives way to Impact easily while the subsequent post increasingly resist. Due to the special shape of the Start or end piece and the arrangement of the posts the vehicle is redirected in the y'-direction and can therefore on slide along the following part of the protective device.

FIG. 11 shows a further embodiment of the Invention. Here too, the guide element is via an intermediate piece 7g with the end section 1g of the protective device connected, analogous to the embodiment of Figure 5. Here are the intermediate piece 7g and the traffic route opposite side of the outer shell 5g integrally formed. The transition area represents a transition between different profiles of the guide element and a usual Guardrail guard rail available.

In the deformation area 2g, which is analogous to the previous one Examples from a sheet metal element 3g facing the street and a sheet metal element 5g facing away from the road in the shape of a drop is formed, are several tubular, from each other spaced deformation elements 2.1g directly on the Inside of the side of the outer shell facing the traffic route (Sheet metal elements 3g) arranged. Some of these deformation elements 2.1g are about struts 14g that run across the traffic route are aligned with the inside of the traffic route facing side of the outer shell 5g connected. Alternatively, the struts 14g run transversely to the rear Profile tape 5g.

The guide element is via post 4g, which is shown in the Embodiment have a C-profile, anchored in the ground.

In this embodiment, the deformation range 2g the tubular deformation elements 2.1g together arranged with the cross struts 14g. The deformation elements 2.1g prevent or reduce wrinkling of the outer sheet 3g in the event of an impact, since they contract prevent the outer sheet. This has the advantage that the outer sheet (sheet metal element 3g) has the smoothest possible surface retains and brakes a crashing vehicle well, redirected and returned to the traffic route can.

Otherwise, the deformation elements increase the rigidity of the deformation area and enable the recording higher forces in the event of an impact.

Figure 12 shows a sectional view of the guide element of Figure 11 along the line D-D. After that they own tubular deformation body 2.1 g a height that is less is the total height of the guide element. Next is too recognize that the outer shell 5g of the guide element in the illustrated Embodiment a wavy profile having. Any other profile is also located within the scope of the invention. Next is clearly too recognize that the deformation elements 2.1g immediately the inside of the side facing the traffic route Fit the outer casing 3g.

Figure 13 shows a particularly preferred embodiment the invention. Here is the outer shell of the guide element banana-shaped, with the outer profile band 3h and the inner profile band 5h run largely parallel. In the deformation area 2h there are several tubular, Polypropylene, equally spaced from each other existing deformation elements 2.1h directly on the Inside of an outer profile tape 3h made of polypropylene arranged. Alternatively, the outer profile strip 3h consist of a thin sheet.

Located between the outer and inner profile tape there are also several segments 2.2h made of polypropylene particle foam, which cause additional energy absorption, if a vehicle hits the guide element. The individual segments have an identical spatial shape, which is a rational production according to the known foam molding process possible by sintering foam particles makes. They are each between two neighboring deformation elements arranged, the deformation elements 2.1h simultaneously as a holder for the segments 2.2h serve.

The inner profile band 5h is stronger than the outer profile band 3h trained. It provides the supporting structure for that the outer profile band, the deformation elements 2.1h and the segments 2.2h and is according to FIG. 11 above Anchored to the floor. It takes residual energy in particular and forwards it to the anchorage at an impact not already caused by the deformation elements 2.1h and the damping segments 2.2h are added.

FIG. 14 again shows a sectional illustration of the guide element 13 along the line E-E. The sectional view is similar to that of Figure 12. In contrast to Guide element of Figure 12 is the guide element of the figure 14 between the deformation element 2.1h and the inner one Profile tape 5h arranged the particle foam segment 2.2h. It fills the cross-section between the profile strip 5h and the segment 2.2h completely.

Due to the additional damping segments 2.2h one improved energy absorption and an improved rebound and deflection effect of the guide element is achieved.

The invention is not limited to the above illustrated embodiments. Other combinations as well as other constructive designs of the individual elements of the guide element are within the scope of the invention. Essential it is only for the invention that between one outer and an inner profile band of an outer shell of the Guide element formed at least one deformation area is.

LIST OF REFERENCE NUMBERS

1a, 1b, 1c, 1d, 1f, 1g

Protection means end piece

2a - 2h

deformation area

2.1d, 2.1e, 2.1f, 2.1g, 2.1h

damping elements

2.2h

Particle foam segment

3a, 3b, 3e, 3f, 3g, 3h

outer profile band

4a, 4b, 4c, 4d, 4f, 4g

post

5a - 5h

inner profile band

5.1a, 5.1b

bulge

6b, 6d

brace

7c, 7g

connecting piece

8d

spacer

12

fastening area

14g

crossmember

F

Thoroughfare

X

Transition area

Y

impact direction

Y '

reversing direction

Claims (36)

Guide element for the start or end area of a protective device (1a, 1b, 1c, 1e, 1d, 1f, 1g) for traffic routes, with an outer shell which encloses an outer profile band (3a, 3b, 3c, 3d, 3e, 3f , 3g, 3h) and an inner profile band (5a to 5h) facing away from the traffic route, the inner profile band having at least one fastening area for anchoring in the ground or for fastening to other parts of the protective device,
characterized in that at least one deformation region (2a - 2h) is formed between the outer and the inner profile band. Guide element according to claim 1, characterized in that the guide element increasingly points away from the traffic route in the direction of the end region of the protective device. Guide element according to Claim 1 or 2, characterized in that the guide element forms an outer shell which is essentially drop-shaped or banana-shaped in longitudinal section. Guide element according to claim 3, characterized in that the profile strip (3a, 3b, 3e, 3f, 3g, 3h) completely surrounds the deformation area (2a - 2h). Guide element according to at least one of the preceding claims, characterized in that the deformation region (2a - 2h) has deformable damping elements (2.1d, 2.1e, 2.1f, 2.1g, 2.1h). Guide element according to claim 5, characterized in that the damping elements (2.1d, 2.1e, 2.1f, 2.1g, 2.1h) consist of plastic, in particular polypropylene or polyvinyl chloride. Guide element according to claim 5, characterized in that the damping elements (2.1d, 2.1e, 2.1f, 2.1g, 2.1h) are made of metal, in particular steel. Guide element according to at least one of claims 5 to 7, characterized in that the damping elements (2.1d, 2.1e, 2.1f, 2.1g, 2.1h) have a honeycomb structure and / or a framework-like structure and / or as tubular elements and / or as a wave-shaped one Band are executed and / or have a box profile and / or consist of angle profiles. Guide element according to at least one of claims 5 to 7, characterized in that the damping elements (2.1d, 2.1e, 2.1f, 2.1g, 2.1h) are tubular elements with an inner diameter of 10 to 30 cm. Guide element according to at least one of claims 5 to 9, characterized in that the damping elements (2.1d, 2.1e, 2.1f) completely fill the deformation region (2d, 2f). Guide element according to claim 5, characterized in that the deformation region (2a, 2b, 2c, 2h) is completely or partially filled with a plastic insulation material (2.2h). Guide element according to claim 11, characterized in that the plastic insulation material (2.2h) is an energy-absorbing plastic foam with a specific energy absorption of at least 1 * 10 ^-5 J / mm ³ and a compression set at 50% compression of less than 50%. Guide element according to claim 11 or 12, characterized in that the plastic foam is a polyolefin particle foam. Guide element according to claim 13, characterized in that the plastic foam is a polypropylene particle foam with a density of 15 to 150 g / l, preferably of 20 to 100 g / l. Guide element according to at least one of the preceding claims, characterized in that reflectors are embedded or fitted in the side of the outer envelope facing the traffic route. Guide element according to at least one of Claims 5 to 15, characterized in that at least two damping elements (2.1g, 2.1h) are designed as tubular elements and are arranged at a distance from one another directly on the inside of the side of the outer shell facing the traffic route. Guide element according to claim 16, characterized in that the damping elements (2.1g) are connected to the inside of the side of the outer shell facing away from the traffic route via cross struts (14g). Guide element according to claim 16, characterized in that the deformation area (2h) contains a plastic insulation material (2.2h) in addition to the pipe elements (2.1h). Guide element according to claim 18, characterized in that the plastic insulation material in the form of plastic foam segments (2.1h) is introduced between the inner profile band (3a, 3b, 3c, 3h) and the outer profile band (5a, 5b, 5c, 5h). Guide element according to claim 19, characterized in that the distance between the inner profile band (3h) and the outer profile band (5h) is largely constant, plastic foam segments (2.1h) of the same size being arranged between the profile bands (3h, 5h) are. Guide element according to at least one of the preceding claims, characterized in that the guide element has an essentially rectangular cross section. Guide element according to at least one of the preceding claims, characterized in that the inner profile band (5a to 5h) is made of metal, in particular steel. Guide element according to at least one of the preceding claims, characterized in that the outer profile band (3a, 3b, 3e, 3f, 3g, 3h) consists of metal or plastic. Guide element according to claim 22 and 23, characterized in that the inner profile band is made stronger than the outer profile band. Guide element according to at least one of the preceding claims, characterized in that a spacer (8d) is located between the fastening area of the guide element and a floor anchor (4d). Guide element according to at least one of the preceding claims, characterized in that the guide element forms an intermediate piece (7c, 7g) which serves to adapt to the protective device in a transition region to the protective device. Guide element according to claim 26, characterized in that the intermediate piece (7g) is formed in one piece with the side of the outer casing (5g) facing away from the traffic route. Guide element according to at least one of the preceding claims, characterized in that two guide elements, which are coupled at the ends to be connected to the protective device, form a double-sided guide element. Protective device on individual or several adjacent obstacles, such as trees or posts, characterized in that the protective device comprises two interconnected guide elements according to claim 1. Protective device according to claim 29, characterized in that the protective device is designed for alley trees. Protective device according to claim 29 or 30, characterized by a length of 3 to 10m. Protective device according to at least one of Claims 29 to 31, characterized in that the two guide elements are connected to one another by means of a straight or slightly curved center piece (3g). Protection device (1a, 1b, 1c, 1d, 1f, 1g) for traffic routes, which is anchored in the ground via at least one post (4a, 4b, 4c, 4d, 4f, 4g),
marked by
at least one guide element according to claim 1, wherein at least one post (4a, 4b, 4c, 4d, 4f, 4g) is anchored in the ground and connected to the guide element such that the guide element is resiliently moved away from the traffic route in the event of a collision. Protective device according to claim 33, characterized in that the flexibility of the posts (4a, 4b, 4c, 4d, 4f, 4g) increases in the direction of the beginning or end section of the protective device, the first or last post of the protective device having the greatest flexibility , Protective device according to claim 34, characterized in that the post (4a, 4b, 4c, 4d, 4f, 4g) each has two bending axes, by means of which the post can be bent to different extents, with bending in the event of a collision taking place via the bending axis of lower rigidity. Protective device according to claim 35, characterized in that the post has a C-profile, double-T profile or Sigma profile in cross section.

Images