DE2829273C2 - - Google Patents

Description

The invention relates to an open noise protection element porous concrete, especially for a noise barrier for Roads, railroad tracks or the like, that of the noise source facing front has depressions.

They are noise protection elements, especially panels for Noise protection walls, known from lightweight concrete, the upper area on the side facing the noise source is filleted (DE-AS 23 26 757). Here, the Sound source facing front of the element depressions in In the form of waves or longitudinal ribs, which enlarge the surface and the sound absorption effect should improve.

As studies have shown, the known Noise protection elements of this type only a limited one Noise spectrum can be recorded and the sound absorption effect is relatively small.

The invention has for its object a noise protection element of the type mentioned in such a way that very good sound absorption with simple training is achieved.

This object is achieved with the invention that the deepening in depth stepped blind holes are, their hole levels smaller inside will.

Under blind holes are in the front surface arranged of the noise protection element, but not this penetrating holes understood whose diameter is stepped towards the inside downsized.

The arrangement of such stepped holes on the Noise source facing the front of the noise barrier elements sets a massive sound Plate of different thickness opposite, the smallest Thickness at least a quarter of the wavelength of the longest possible incident sound rays, in the area between the holes, however, even thicker is. This makes it possible to take sound waves under absorb different frequency ranges.  

The multilevel holes have the advantage that the Sound rays at the edges of the step heels several times be bowed and thereby a different direction take, depending on the angle of impact to the Hole walls reflected, extinguished in the hole area or at a different angle in the plate are guided in their heaped structure Energy is largely consumed. Because sound emit different wavelengths at the steps edges are bent differently, they are off stepped holes for the whole on the noise protection element impacting sound spectrum effective. At the same time the surface of the Noise protection element according to the invention by the arrangement of the stepped holes enlarged significantly.

It is particularly useful if the holes against the Front of the noise protection element inclined side walls have, the side walls of different perforation steps can have different inclinations from each other. This makes it possible to protect the noise protective element to the frequencies hitting them better by changing the taper of the side walls to fit. If the step heels of the perforated steps for are inclined towards the next inner hole step the best effect and a particularly simple manufacture of the noise protection element.

It is particularly useful if the graded Holes evenly across the front of the noise barrier elements distributed and smaller ones between them Holes are arranged. These smaller holes can be single-stage holes, their shape and size the smallest hole level of the multi-level holes ent speaks. This configuration has the advantage that a much larger number of Holes can be accommodated than this  same hole size is the case. In addition, the Possibility of sound absorption through different large holes increased.

The step heels of the perforated steps can face the front of the noise protection element be parallel. For certain However, applications are more convenient if the Hole steps inclined towards the next inner hole step are. This results in a better sound level degree of sorption.

Preferred embodiments of the invention are in the following description and the drawing shown and explained. It shows

Fig. 1 is a noise protection wall with noise protection elements according to the invention in a vertical cross-section,

Fig. 2 is a detail of FIG. 1 in an enlarged scale,

Fig. 3 is a partial view of the front of a noise protection element,

Fig. 4 shows the subject of FIG. 3 in a cross section along line IV-IV,

Fig. 5 shows another embodiment of the multi-stage holes arranged in the noise protection element according to the invention.

In the drawings, 10 denotes a noise barrier, which is set up next to a road, a railroad path or the like and whose front 11 faces the noise source 12 . The noise protection wall 10 is comprised of spaced juxtaposed anchored into foundations 13 vertical posts 14 between which the noise protection elements 15 are arranged He invention after.

In the present exemplary embodiment, the noise protection elements are plates made of open-pore concrete with an approximately triangular cross section, which engage in laterally arranged grooves 16 of the posts 14 . Each element 15 has on its front side 11 a lower surface 17 which is inclined towards the road and an increasing upper surface 18 .

About the inclined against the road 19 lower surface 17 , many stepped holes 20 are evenly divided ver, between which in turn smaller, single-stage holes 21 are arranged ( Fig. 3). It can be seen from FIG. 4 that each of the holes 20 is stepped in depth and has a larger hole step 22 and a smaller hole step 23 , the smaller hole step 21 being located further inside the surface 17 .

In the illustrated embodiment, the holes 20 have conical side walls 24 and 25 , the taper of which is the same for both hole levels. However, the taper can also be different and, for example, be lower in the smaller hole step than in the larger, outer hole step.

The smaller holes 21 arranged between the larger holes 20 are single-stage in the illustrated embodiment, but also have conical side walls like the larger holes. They correspond in shape and size to the smallest hole level 23 of the multi-level holes 20 .

While in the exemplary embodiment shown in FIGS . 1 to 4, the step heels 26 between the hole steps 22 and 23 are parallel to the front 11 of the noise protection elements, the step heels 27 and 28 of the hole steps 22, 23 and 29 of the holes are in the execution approximately example of FIG. 5 for each next inner hole stage 23 and 29 inclined. In the execute form in FIG. 5, the holes are in three stages and are not conical, but cylindrical side walls.

The holes 20 and 21 have appropriate circular cross-section, but can also be polygonal, for example hexagonal or octagonal.

Claims (8)

1. Noise protection element made of open-pore concrete, in particular for a noise protection wall for roads, railways or the like, whose front side facing the noise source has depressions, characterized in that the depressions are stepped blind holes ( 20 ), the hole steps ( 22, 23 ) become smaller towards the inside. 2. Element according to claim 1, characterized in that the holes ( 20 ) against the front inclined side walls ( 24, 25 ). 3. Element according to claim 1 or 2, characterized in that the side walls ( 24 or 25 ) of different perforation steps ( 22, 23 ) have mutually different inclinations. 4. Element according to one of claims 1 to 3, characterized in that the stepped holes ( 20 ) are evenly distributed over the front ( 11 ) of the noise protection element ( 15 ) and that smaller holes ( 21 ) are arranged between them. 5. Element according to one of claims 1 to 4, characterized in that the smaller holes ( 21 ) are a stepped holes, the shape and size of the smallest hole step ( 23 ) of the multi-step holes ( 20 ). 6. Element according to one of claims 1 to 5, characterized in that the step shoulders ( 26 ) of the perforated steps ( 22 ) to the front ( 11 ) of the noise protection element ( 15 ) are parallel. 7. Element according to any one of claims 1 to 5, characterized in that the step shoulders ( 27, 28 ) of the perforated steps ( 22, 23 ) to the next inner perforated step ( 23 or 29 ) are inclined. 8. Element according to one of claims 1 to 7, characterized in that the holes ( 20, 21 ) have a circular cross-section and expand towards the front ( 11 ) of the element ( 15 ).