DE9301089U1 - Traffic control stone - Google Patents

Description

Andrejewski, Honke & Partner, patent attorneys in Essen

Description

The invention relates to a traffic guide stone made of concrete or reinforced concrete, with a raised guide body and support flanks on both sides.

Such traffic guide stones are used to mark lane changes, lane changes or the like. A number of traffic guide stones are regularly linked together to create a roadway similar to a guard rail. Since sufficient protection and separation of lanes is to be achieved, traffic guide stones must be characterized by increased stability. For this reason, the known traffic guide stones regularly have a large base width of e.g. 60 cm. However, there is generally a lack of space, particularly in construction areas, so that traffic guide stones with such a base width can no longer be used. - This is where the invention comes in.

The invention is based on the object of creating a traffic guide stone of the embodiment described above, which is characterized by a reduced base width and yet sufficient stability.

The invention solves this problem in a traffic guide stone of this type by designing the support flanks as wedge-shaped flanks with ramp surfaces tapering to an acute angle. - The invention is based on the knowledge that sufficient stability is achieved even when

Andrejewski, Honke & Partner, patent attorneys in Essen

By dispensing with concrete mass and reducing the base width, the contact flanks also fulfill the function of ramp surfaces. Because then, in addition to the remaining concrete mass, a partial mass of the approaching vehicle also comes into play, so the stability of the traffic guide stone according to the invention is increased to a considerable extent by the approaching vehicle, and in fact significantly more than the missing concrete mass. Surprisingly, the approaching vehicle counteracts a shifting effect. For this reason, according to the teaching of the invention, a traffic guide stone can be produced whose base width is only 50 cm or less and yet has sufficient stability. Consequently, the traffic guide stone according to the invention can be used preferably in construction site areas and other road areas with a lack of space.

The invention is based on the further knowledge that ramps tapering at an acute angle cannot be easily manufactured from reinforced concrete, since the transition area between the roadway and the support flank made of reinforced concrete must generally be at least 6 cm or more for manufacturing reasons. A perfectly functioning ramp can only be achieved if the transition area between the roadway and the ramp is almost edge-free and, if possible, only a few mm. For this reason, the invention teaches with independent significance that the support flanks are made of polymer concrete, plastic, steel or rubber and are connected to the guide body in a force-fitting and form-fitting manner. According to a proposal of the invention with

Andrejewski, Honke & ?ortner, patent attorneys in Essen

For independent purposes, it is intended that the contact flanks consist of a bonded rubber granulate, e.g. polyurethane resin bonded, e.g. recycled rubber granulate from old tires. Such contact flanks made of rubber are on the one hand advantageous in that they are suitable for forming sufficiently edge-free drive-on surfaces, and on the other hand advantageous because they are characterized by increased frictional resistance on the road surface. This optimizes stability. In fact, a special claw effect is even achieved in relation to the road surface when polyurethane resin bonded rubber granulate is used. This in turn can be made from old tires as a contribution to environmental protection.

Further features essential to the invention are listed below. The invention teaches, with independent significance, that steel reinforcement, e.g. galvanized steel reinforcement, is embedded in the two contact flanks made of rubber or rubber granulate, that the two contact flanks are spaced apart to the installation dimension or casting dimension, and that the exposed middle area of the steel reinforcement with contact surfaces adapted to the side of the guide body is concreted into the base of the guide body. According to the invention, the concrete cover of the steel reinforcement lies by a predetermined amount below the contact surfaces of the contact flanks in order not to disturb the aforementioned claw effect, but rather the contact flanks themselves rest on the road surface with their contact surfaces, increasing the frictional resistance. The steel reinforcement ensures the force-fitting connection of the contact flanks made of foreign material with the guide body, while the form-fitting connection is not

Andrejewski, Honke & Pcrtner, patent attorneys in Essen

only by the steel reinforcement, but also by the adaptation of the support flanks to the guide body. This adaptation occurs automatically during the production of the traffic guide stone according to the invention, because the two support flanks with the steel reinforcement are inserted into the formwork into which concrete is poured to produce the guide body. In this respect, the required concrete cover for the steel reinforcement and the undersize compared to the contact surfaces of the support flanks can also be easily achieved. The steel reinforcement is expediently designed as a ladder-like reinforcement with longitudinal bars embedded in the support flanks and cross bars connecting the longitudinal bars at predetermined intervals, so that after completion of the traffic guide stone according to the invention, the cross bars or their exposed areas are embedded in concrete. The guide body and the contact flanks preferably engage with each other via corresponding step surfaces in order to achieve positive locking in the vertical and horizontal directions. Reflective strips can be applied to the contact surfaces.

Furthermore, according to a proposal of the invention with independent significance, there is the possibility that the guide body has blind holes on its underside at the end and that joint-forming bolts on connecting straps for adjacent traffic guide stones engage in the blind holes. The guide bodies can have recesses on their underside in the area of the connecting straps that countersink the connecting straps with

have sufficient play. In this way, the connecting straps do not protrude beyond the contact surfaces of the

Andrejewski, Honke & Partner, patent attorneys in Essen

If the support flanks are made of rubber, a movable connection of the traffic guide stones according to the invention is nevertheless achieved by means of the connecting straps. In fact, a chain effect is created, which allows the traffic guide stones to be set up with corresponding radii within the framework of the specified movement and the distance between them. The height or length of the bolts is selected so that the traffic guide stones cannot tip out of this anchorage. - With the traffic guide stone according to the invention, not only a narrow base width of e.g. 50 cm can be achieved, but of course any other base width and in particular larger base widths. The invention is therefore not limited to a narrow base width, although the advantages achieved by the invention can essentially be seen in the fact that increased stability is achieved despite the reduction in concrete mass.

In the following, the invention is explained in more detail with reference to a drawing which merely represents an exemplary embodiment; in the drawings:
20

Fig. 1 shows a traffic control stone according to the invention in side view,

Fig. 2 the object according to Fig. 1 in plan view,
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Fig. 3 is a vertical section through the article according to Fig. 1,

Andrejewski, Honke & Partner, patent attorneys in Essen

Fig. 4 a vertical section through the support flanks with embedded steel reinforcement as an installation part for the object according to Fig. 1,

Fig. 5 is a plan view of the article according to Fig. 4,

Fig. 6 shows a partial vertical section through the end areas of two adjacent traffic guide stones with a common connecting strap.

The figures show a traffic guide stone 1 made of reinforced concrete, with a raised guide body 2 and support flanks 3 on both sides. The support flanks are designed as wedge-shaped flanks in cross section with ramp surfaces 4 that taper off at an acute angle. The support flanks 3 are made of rubber according to the example and are connected to the guide body 2 in a force-fitting and form-fitting manner. The rubber can be polyurethane resin-bonded rubber granulate from old tires. A galvanized steel reinforcement 5 is embedded in the two support flanks 3 made of rubber. The two support flanks 3 are spaced apart to the installation dimension or casting dimension - in any case to the final dimension. The exposed middle area of the steel reinforcement 5 is concreted into the base of the guide body 2 with support surfaces 6 that are laterally adapted to the guide body 2. The concrete cover 7 of the steel reinforcement 5 is located a specified amount below the contact surfaces 6 of the support flanks 3. The steel reinforcement 5 is designed as a ladder-like reinforcement with longitudinal bars 8 embedded in the support flanks 3 and transverse bars 9 connecting the longitudinal bars at specified intervals.

Andrejewski, Honke & Partr.er, patent attorneys in Essen

The guide body 2 and the contact flanks 3 engage with each other via corresponding step surfaces 10. A reflective strip 11 is applied to the contact flanks 3.

The guide body 2 has circular blind holes 12 on its underside at the end. These blind holes 12 are engaged by joint-forming bolts 13 on connecting plates 14 for adjacent traffic guide stones 1. The guide bodies 2 have recesses 15 on their underside in the area of the connecting plates 14 that sink the connecting plates and provide a predetermined amount of play for the connecting plates. This prevents the connecting plates 14 from projecting over the contact surfaces 6 of the contact flanks 3, and it also allows a radius to be laid when the traffic guide stones 1 are linked.

Claims (10)

Andrejewski, Honke & Partner, patent attorneys in Essen Protection claims 1. Traffic guide stone made of concrete or reinforced concrete, with a raised guide body and support flanks on both sides, characterized in that the support flanks (3) are designed as wedge-shaped flanks with acute-angled ramp surfaces (4). 2. Traffic guide stone according to claim 1, characterized in that the support flanks (3) consist of polymer concrete, plastic, steel or rubber and are connected to the guide body (2) in a force-fitting and form-fitting manner. 3. Traffic guide stone according to claim 1 or 2, characterized in that the support flanks (3) are made of a bound rubber granulate, e.g. bound with polyurethane resin, e.g. Recycled rubber granules made from old tires. 4. Traffic guide stone according to one of claims 1 to 3, characterized in that a steel reinforcement (5), galvanized steel reinforcement, is embedded in the two support flanks (3) made of rubber or rubber granulate, that the two support flanks (3) are spaced apart to the installation dimension, and that the exposed middle area of the steel reinforcement (5) is concreted into the guide body (2) with support surfaces (6) laterally adapted to the guide body (2). 5. Traffic guide stone according to one of claims 1 to 4, characterized in that the concrete cover (7) of the steel reinforcement Andrejewski, Honke & Partner, patent attorneys in Essen (5) is located a predetermined amount below the contact surface (6) of the contact flanks (3). 6. Traffic guide stone according to one of claims 1 to 5, characterized in that the steel reinforcement (5) is designed as a ladder-like reinforcement with longitudinal bars (8) embedded in the support flanks (3) and transverse bars (9) connecting the longitudinal bars at predetermined intervals. 7. Traffic guide stone according to one of claims 1 to 6, characterized in that the guide body (2) and the support flanks (3) engage with one another via corresponding step surfaces (10). 8. Traffic guidance stone according to one of claims 1 to 7, characterized in that reflective strips (11) are applied, e.g. glued, to the support flanks (3). 9. Traffic guide stone according to one of claims 1 to 8, characterized in that the guide body (2) is provided at its end on its The underside has blind holes (12), e.g. circular blind holes, and the blind holes (12) are engaged by joint-forming bolts (13) on connecting straps (14) for adjacent traffic guide stones (1). 10. Traffic guide stone according to one of claims 1 to 9, characterized in that the guide bodies (2) have recesses (15) on their underside in the area of the connecting straps (14) which sink the connecting straps and have a predetermined movement play for the connecting straps.