EP1788155A2 - Lightweight ecological noise protection barrier - Google Patents

Abstract

Ecological noise protection wall has wedge-shaped sound-absorbent insulating materials. The noise protection wall has sound dampening element (1) comprising a sound-absorbent sound dampening material (8). The sound dampening material is made from natural and renewable raw materials like straw, blades or fibers of plant origin, with a roofing to protect against the effect of the weather.

Description

The invention relates to an ecological noise barrier in lightweight construction with sound-absorbing insulation materials from natural and renewable raw materials, in particular a noise barrier against traffic noise, which is arranged with vertical, anchored in a foundation columns on roads or other sources of noise.

Due to the increasing traffic density on roads and railways, more and more noise is generated. Noise protection thus becomes a fundamental need for environmental protection. Also for reasons of environmental protection are in the selection of materials for noise protection such aspects as environmental impact, ecology, economy but also waste disposal and acceptance of local residents to consider. From these points of view, noise protection measures based on renewable raw materials such as wood and straw have proved their worth.

The sound-absorbing and heat-insulating properties of straw have been known for a long time. Known noise protection walls made of straw against traffic noise exist according to the DE 195 17 538 A1 from a frame construction, in which pressed containers made of straw are stacked as soundproofing material. The pressed straw bundles produced by harvesting technology are available annually in virtually unlimited quantities as an insulating material. The straw bales pressed from the grain in cuboid or cylindrical form during harvesting are stacked on top of each other as noise protection elements, thus creating a noise barrier. The straw bales must be statically secured against wind pressure and at the same time protected against rising damp with a foundation. On this foundation vertical supports are anchored. Disadvantages are the comparatively large transport costs and the space requirement of straw bales.

In the EP 980 933 An ecological noise barrier with noise protection modules made of wood and straw is described, which are supported by foundations, whereby a clear space between the soil and the underside of the noise protection wall is given. Along the middle of the noise barrier, a line of artificial stone is placed in the space for a soundproof finish. The Noise protection modules consist of a piling device with crossbeams, to which a roof device is attached. Each noise protection module has a height of about 3 m, a length of about 5 m and a width of 75 cm to 110 cm. The spaces between the piles are filled with conventional straw bales in the known dimensions. In this way, a noise protection wall of any length can be built by juxtaposing the noise protection modules. Inappropriate are the height and width of the noise protection modules, which in this way require a lot of space during transport and storage. Another disadvantage is the weight of the noise protection modules, which usually require heavy lifting device. In the construction of noise barriers at railway embankments, the use of rail-mounted hoists is particularly disadvantageous because the rail traffic must be interrupted. There is thus a need for soundproof walls in lightweight construction that can be erected on site without the use of lifting equipment.

Such a noise barrier in lightweight construction, for example, in the DE 42 12 172 A1 described. However, the noise barrier consisting of stacked rockwool does not meet all ecological requirements. The noise protection wall presents comparatively even and uniform attack surfaces, which are sprayed with graffiti to an increasing extent on traffic routes. From the overall aesthetic perspective, graffiti-contaminated noise barriers are extremely unsatisfactory for travelers.

Also known are noise barriers with a textured surface, which are less prone to graffiti. In the DE 297 06 785 U1 a soundproofing wall made of aluminum is proposed with a Schallschluckmatte, which is assembled with the least effort on the site of prefabricated elements and in which the wall surface is also used for a photovoltaic conversion of solar energy into electricity. The soundproofing elements essentially form right-angled and non-isosceles prismatic cassettes with a solar panel. The solar panel is aligned with the light. The sound impinging on the solar panel is reflected against a perforated plate with a sound absorption mat. The prefabricated soundproofing elements are self-supporting stacked in guides on carriers. The disadvantage of the aspect of ecology, the cost of producing the noise barrier with the use of aluminum. The degree of attenuation of a Schallschluckmatte is low. In addition, the lightweight construction of an aluminum noise barrier is limited.

Sound barrier walls at railway embankments are exposed to significant dynamic loads due to pressure fluctuations, which require a solid construction due to passing high-speed trains. Due to pressure waves and suction waves at the beginning and end of high-speed trains, the holders of the soundproofing elements can be loosened over time such that the soundproofing elements themselves tend to oscillate. For this reason, aluminum noise control elements must have a relatively large mass in order to avoid natural vibrations. Otherwise, the impact of the pressure waves and suction waves creates structure-borne noise in the noise protection wall, which is emitted by vibrations on the surface as airborne sound. The input impedance of the noise barrier must then be increased by increasing the mass. Otherwise, the noise barrier must be dampened with sound deadening or with heavy mats. For the reasons mentioned aluminum noise barriers are less well suited for lightweight construction.

The invention aims an ecological noise barrier in lightweight construction with sound-absorbing insulation materials from natural and renewable raw materials, which can be constructed with technically simple means and with good sound insulation properties also has a high stability against dynamic loads on roads and railways with high-speed trains.

It has been found that a soundproof wall in lightweight construction with wedge-shaped sound-absorbing elements with sound-absorbing insulation materials made of natural and renewable raw materials straw, stalks or fibers of plant origin highly sound-absorbing for airborne noise and very well suited for use on high-speed roads because of their corresponding stability. Wedge-shaped sound-absorbing elements with a sound-absorbing material made of straw have a high sound attenuation and a high sound absorption capacity. These cause a substantial sound impermeability of the noise barrier. In sound absorption, the sound propagation is subjected to strong damping, whereby sound is converted into heat by internal and external friction due to deformation of the material. The wedge-shaped sound-absorbing elements according to the invention have in this way high sound-absorbing properties.

The extraordinary sound absorption of the wedge-shaped sound-absorbing elements with an insulation made of straw or stalks can also be explained by the fact that the straw particles consist of a multitude of tube-like elements which, with a simple design as waveguides, result in a resonator arrangement with good absorption values.

According to a preferred embodiment of the invention, the dimensions of the chopped straw particles or straws should be in a range between 10 mm to 50 mm, preferably between 20 mm and 30 mm. In addition, it has been found that flexible wedge-shaped sound absorption elements made of straw are so insensitive to pressure waves that they are suitable for use on high-speed roads. Pressure waves and suction waves do not cause natural oscillations in sound-absorbing elements made of straw. The weight and mass of the sound-absorbing elements can therefore be kept low. In this way, the wedge-shaped sound-absorbing elements can be stored by simple means by hand, transported and mounted without additional lifting equipment.

Wedge-shaped sound absorption elements are stackable due to their dimensions with a small footprint. The wedge-shaped sound-absorbing elements can be manufactured inexpensively and offered in large quantities in retail, for example in hardware stores and sold. For the first time, the sale in the retail sector offers the possibility of individual and cost-effective construction of noise barriers by individual persons if the available funds of the municipalities are insufficient for noise abatement measures. Thus, with wedge-shaped noise protection elements with sound-absorbing insulation made of straw the currently still unsolved problem of noise control on busy traffic routes can be met with simple means. In addition, wedge-shaped sound-absorbing elements do not provide a graffiti attack surface. The ecological noise protection wall with wedge-shaped noise protection elements made of straw thus offers a high level of economy in terms of sound, visual and financial aspects for reducing and avoiding environmental pollution caused by noise.

In principle, the wedge-shaped sound-absorbing elements can be arranged vertically or horizontally. The wedge-shaped sound-absorbing elements are preferably stacked horizontally cassettes above each other and each provided with a roof. Preferably, each horizontally arranged, wedge-shaped sound-absorbing element is at its upper wedge surface provided with an arranged at an angle shingles and protected against weather conditions. Thus, in this way the sound waves impinging on the roof shingle are reflected according to their angle of incidence on the lower side surface of the wedge-shaped Schallschluckelementes and absorbed by the straw. A further increase in noise reduction can be achieved by a weather-resistant and sound-absorbing surface coating of the roof shingle. In addition, the roof shingle can be used in a conventional manner for attaching solar modules.

The lower side surface of the wedge-shaped Schallschluckelementes of straw is provided according to a further embodiment of the invention with a perforated cover. The perforated cover is preferably made of a flexible, perforated or textile membrane to withstand the pressure loads on railways with high speed trains to maintain the mold. Conveniently, the wedge-shaped sound absorption elements are fixed together with the roof shingle and the cover on a support plate, which preferably consists of untreated larch wood, which is similarly well suited in terms of ecology and durability. By a two-sided arrangement of wedge-shaped sound-absorbing elements on the front and the back of the support plate can thus be made available in densely populated residential areas a highly absorbent, acting in two directions noise barrier.

The invention will be explained below with reference to an embodiment with reference to the drawings. Advantageous embodiments of the invention will become apparent from the dependent claims.

• Figur 1 eine Lärmschutzwand aus einer Vielzahl von keilförmigen Schallschluckelementen,
• Figur 2 ein keilförmiges Schallschluckelement,
• Figur 3 ein keilförmiges Schallschluckelement nach Figur 2 im Querschnitt,
• Figur 4 ein doppelseitiges keilförmiges Schallschluckelement im Querschnitt und
• Figur 5 eine Anzahl gestapelter keilförmiger Schallschluckelemente in schematischer Darstellung.

In detail shows

• FIG. 1 shows a noise protection wall made of a multiplicity of wedge-shaped sound-absorbing elements,
• FIG. 2 shows a wedge-shaped sound-absorbing element,
• FIG. 3 shows a wedge-shaped sound-absorbing element according to FIG. 2 in cross section,
• Figure 4 shows a double-sided wedge-shaped Schallschluckelement in cross section and
• Figure 5 shows a number of stacked wedge-shaped sound-absorbing elements in a schematic representation.

In Figure 1, an ecological noise protection wall is shown in lightweight construction, which is composed of individual wedge-shaped Schallschluckelementen 1. The wedge-shaped sound absorption elements 1 are stacked like a cassette between vertical supports 2. The vertical supports 2 are formed by double T flange carriers or two U - carriers, which are anchored in foundations 3 in the ground. The double T-flange carrier have a U-shaped post chamber 4, in which the wedge-shaped sound-absorbing elements 1 are inserted from above. In the section between the vertical supports 2, the space between the soil and the wedge-shaped sound-absorbing elements 1 by artificial stones 5 soundproof and insulating against rising moisture is completed. In addition, the noise protection wall can be provided with a roof as a whole and, in addition, can be equipped with a splash guard in the lower area. Furthermore, the noise barrier can be provided with a plant vegetation not shown, whereby the sound-absorbing effect, the climatic influence on the environment and the aesthetic effect are significantly increased. Through plant growth, the aging resistance of the noise barrier can be increased because precipitation and moisture are kept away by the vegetation.

Preferably, a wedge-shaped soundproofing element 1 shown in FIG. 2 has a roof shingle 6 made of wood as a roofing for the weather protection. The roof shingle 6 is inclined at an angle of approximately 45 degrees. In this way, each wedge-shaped sound-absorbing element 1 is provided on its upper wedge surface with a roof shingle 6 and protected against the effects of weather. The sound waves impinging on the roof shingle 6 are reflected by the angle of incidence on the lower side surface 7 of the wedge-shaped sound-absorbing element 1 and absorbed by the sound-absorbing substance 8. To improve the sound absorption, the reverberant inner surfaces of the sound absorption element 1 can be provided with a sound-absorbing coating.

The sound-absorbing material 8 consists mainly of straw, stalks or fibers of plant origin. Under straw are the stalks of cereals to understand, while under stalks are essentially to understand the stems of the grasses. As stalks, for example, the stems of bamboo, rice and sugar cane are called.

Natural fibers of plant origin are, for example, cotton fibers or nonwovens of cotton, coconut, hemp, flax and cellulose fibers and cellulosic Fibers like bamboo fibers. In addition, animal fibers such as sheep's wool can be used as Schallschluckstoff 8.

However, the invention should not be limited to the renewable raw materials mentioned in the exemplary embodiment. In the context of the claims, other natural insulation materials suitable for noise protection can be used. These include inorganic insulating materials or sound-absorbing materials such as glass wool, mineral wool, rockwool or slag fibers and felt products which cause sound absorption.
As Schallschluckstoff 8 can likewise be used for particles processed wood, wood wool and small pieces of wood chips and cellulose particles.

The lower side surface 7 of the wedge-shaped Schallschluckelementes 1 in Figure 2 is provided for wind protection with a perforated soundproof cover 9. The perforated cover 9 is to maintain the mold preferably made of a flexible, perforated or textile membrane that withstands the pressure loads on railways with high-speed trains. For a weather-resistant cover 9, a sound-transmitting or sound-absorbing fabric, for example, a coarse plastic fabric or glass fiber fabric may be used. For a flexible cover 9 is a variety of materials into consideration. These may consist of an air-permeable, soft or limp-set plastic or of textile materials which are provided with a corresponding impregnation. As the cover 9, for example, a wide-meshed fabric comes into consideration when the meshes are smaller than the tubular particles of straw or stalks, so that they are prevented from falling out. Films should have a low basis weight and have sufficient sound transmission, so that the absorption capacity of the noise barrier is not permanently impaired. In a film sufficiently large air passage openings can be provided without affecting the sound absorption. The shape of the air passage openings is arbitrary. They can be configured slot-shaped or hole-shaped.

However, a perforated cover 9 may likewise be formed of a different material such as metal or aluminum. In this case, there is the possibility of inserting the sound-absorbing material 8 in a one-piece molded cladding made of aluminum or another desired metal and to protect against the weather.

In an ecological noise protection wall, the wedge-shaped sound-absorbing elements 1 according to FIG. 3 with the roof shingle 6 and the cover 9 are mounted on a support plate 11. The support plate 11 is preferably in the aspect of ecology from untreated larch wood, which has a good suitability for these purposes durability. For the support plate 11 in particular resistant larch - heartwood is used, which has a lasting decades lasting durability without environmentally harmful preservative with a proper structural protection. As far as individual sound-absorbing elements 1 should become unusable over time, they can easily be replaced by hand and disposed of in an environmentally friendly manner. For the replacement of individual sound-absorbing elements 1 no hoists are required. Other resistant types of wood are, for example, native hardwood such as oak or the Canadian softwood robinia. Alternatively, in the case of heartwood use, native softwood species with usually more limited resistance may be used. These are the native softwoods larch and Douglas fir. With additional constructive wood protection measures, the life of the wood can be extended.

The support plate 11 in the exemplary embodiment of the untreated larch - heartwood has at the upper side edge 12 a milled from the solid spring 13 and at the lower edge 15 a groove 13 corresponding to the groove 14. The support plates 11 can be connected in this way by means of the tongue and groove arrangement form-fitting firmly together and soundproof. Incidentally, the groove 14 at the lower edge 15 and the side groove 16 at the two lateral edges 17 a mounting relief for the insertion of Dämmstreifen 18 in the space between the artificial stones 5 and the supports second

As Dämmstreifen 18 suitable compression bands are used for sound insulation. The compression band is a pre-compressed polyurethane-based foam sealing tape that expands slowly after insertion into a joint and seals against the seam edges. The compression band is provided with a self-adhesive layer. With the self-adhesive layer, the compression band is fastened in the groove bottom 19. Shortly before assembly, the protective strip 20 of the compression band can be removed. After assembly, the compression band can expand. The joints between the supports 2 and the gap between the artificial stones 5 can thus permanently against sound be sealed. In this way, the assembly is facilitated by the delayed expansion of the compression band in the groove 14.

During assembly, the wedge-shaped sound-absorbing elements 1 are inserted according to Figure 2 in the direction of arrow 21 in the post chamber 4. The wedge-shaped sound-absorbing elements 1 are thereby held between the supports 2. In order to keep the wedge-shaped sound-absorbing elements 1 as free of play between the supports 2, corresponding chamber woods 22 may be provided in the post chamber 4. If the support plate 11 is laterally reinforced in the region of the post chamber 4 with a chamber wood 22, a solid overall structure of the noise protection wall can be achieved. Robinia or oak is used for the chamber wood, which is better suited for the mechanical loads on high-speed lines. Furthermore, according to an embodiment shown in FIG. 4, the wedge-shaped sound-absorbing elements 1 can be arranged on the front side and the rear side of the support plate 11. By the two-sided arrangement of wedge-shaped sound-absorbing elements 1 on the front and the back of the support plate 11 can thus be made available in densely populated residential areas a highly absorbent, acting in two directions noise barrier. Reflections of sound on buildings can be reduced in this way.

In both cases, the wedge-shaped sound absorption elements 1 are easy to stack due to the geometric design. The horizontally stacked wedge-shaped sound-absorbing elements 1 shown in FIG. 5 require a small space requirement during storage and during transport when being marketed. In this way, noise barriers can be built without much effort and at a low cost. The wedge-shaped sound-absorbing elements 1 have an extremely low weight compared to conventional soundproof walls. The noise barrier can be built along railway embankments and car terraces, even on difficult to access sections without heavy hoists and without interrupting the traffic. The noise barrier wall of wedge-shaped sound-absorbing elements 1 has no joints or weak points with respect to a proper sound absorption.

Claims (20)

Ecological noise barrier in lightweight construction with sound-absorbing insulation materials from natural and renewable resources, especially noise barrier against traffic noise, which is arranged with vertical, anchored in a foundation columns on roads or other sources of noise, characterized in that the noise barrier wedge-shaped sound absorption elements (1) with a sound-absorbing Schallschluckstoff (8) from natural and renewable raw materials of straw, straw or fibers of plant origin, which are protected by a cover against the weather. Ecological noise barrier according to claim 1, characterized in that the sound-absorbing sound-absorbing material (8) consists of straw produced from the stalks of the cereals. Ecological noise barrier according to claim 1, characterized in that the sound-absorbing sound-absorbing material (8) consists of straws made from the stems of grasses, for example bamboo, rice and sugar cane. Ecological noise barrier according to claim 2 or 3, characterized in that the sound-absorbing sound-absorbing material (8) consists of tubular elements of chopped straw or chopped stalks. Ecological noise protection wall according to claim 4, characterized in that the dimensions of the tubular elements of chopped straw or chopped straws are in a range between 10 mm to 50 mm, preferably between 20 mm and 30 mm. Ecological noise barrier according to claim 1, characterized in that the sound-absorbing Schallschluckstoff (8) consists of cotton fibers or a nonwoven fabric made of cotton, coconut, hemp, flax and cellulose fibers or cellulosic fibers such as bamboo fibers. Ecological noise barrier according to claim 1, characterized in that the sound-absorbing sound-absorbing substance (8) consists of animal fibers such as sheep's wool. Ecological noise barrier according to claim 1, characterized in that the sound-absorbing sound-absorbing material (8) consists of inorganic insulating materials or insulating materials such as glass wool, mineral wool, rockwool or slag fibers and felted products. Ecological noise barrier according to claim 1, characterized in that the sound-absorbing sound-absorbing material (8) has worked up to particles wood, wood wool and small pieces of wood chips and cellulose particles. Ecological noise barrier according to one of claims 1 to 9, characterized in that the wedge-shaped Schallschluckelemente (1) horizontally stacked one above the other and each provided on the upper wedge surface with an inclined at an angle of approximately 45 degrees roof shingles (6) and protected against the weather are. Ecological noise barrier according to one of claims 1 to 10, characterized in that the roof shingle (6) has a weather-resistant and sound-absorbing surface coating or is equipped with solar modules. Ecological noise barrier according to one of claims 1 to 11, characterized in that the lower side surface (7) of the wedge-shaped Schallschluckelementes (1) for wind protection of Schallschluckstoffs (8) with a perforated sound-permeable cover (9) is provided. Ecological noise barrier according to claim 12, characterized in that the perforated cover (9) consists of an air-permeable and sound-permeable, flexible soft, perforated or textile membrane, film or a fabric. Ecological noise barrier according to claim 12, characterized in that the perforated cover (9) comprises a coarse or wide-meshed impregnated textile fabric, plastic fabric or fiberglass fabric whose meshes are smaller than the tubular particles of straw or the chopped straws. Ecological noise barrier according to claim 13, characterized in that the film is provided with slot-shaped or hole-shaped air passage openings. Ecological noise barrier according to claim 12, characterized in that the perforated cover (9) of the wedge-shaped sound-absorbing elements 1 and the roof shingle (6) is integrally formed of a material such as metal or aluminum. Ecological noise barrier according to one of claims 1 - 16, characterized in that the wedge-shaped sound absorption elements (1) with the roof shingle (6) and the cover (9) are mounted on a support plate (11). Ecological noise protection wall according to claim 17, characterized in that the roof shingle (6) and the support plate (11) consist of untreated larch wood, in particular of a resistant larch heartwood, the support plate (11) on the upper side edge (12) one of the Has full milled spring (13) and at the lower edge of a corresponding with the spring (13) groove (14). Ecological noise protection wall according to claim 17 to 18, characterized in that the support plate (11) is provided on the lateral edges (17) with a side groove (16) and with an in the groove bottom (19) mounted Dämmstreifen (18) or a pre-compressed compression band. Ecological noise protection wall according to claim 17 to 19, characterized in that the support plate (11) reinforced with a chamber wood (22) of robinia or oak and free of play in the post chamber (4) between the supports (2) is mounted.

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