WO2011075755A1

WO2011075755A1 - Sound barrier component

Info

Publication number: WO2011075755A1
Application number: PCT/AT2010/000472
Authority: WO
Inventors: Gerhard Rinnhofer; Liviu-Valeriu Roman
Original assignee: Kirchdorfer Fertigteilholding Gmbh
Priority date: 2009-12-23
Filing date: 2010-12-09
Publication date: 2011-06-30
Also published as: AT509243A1; EP2516747A1; AT509243B1; CH704558B1; HUE032079T2; SI2516747T1; EP2516747B1

Abstract

The invention relates to a sound barrier component (1), wherein to enable simple production, to fulfill high static requirements, and to increase the sound barrier effect, the sound barrier component (1) is designed as a one-piece concrete body (2), the concrete body (2) contains aggregates having a bulk density between 2000 kg/m3 and 3000 kg/m3, and at least one first surface (3) of the concrete body (2) is designed as an acoustic absorber in order to attenuate airborne sound.

Description

Sound insulation component

The invention relates to a soundproofing component according to the preamble of claim 1.

There are soundproofing components, such as noise protection panels, known, which are formed from concrete. Such conventional soundproofing components have a support body or a base body, which is usually formed of normal concrete, and which forms a load-bearing structure. On this body is then arranged at least one, the expected noise source dressed, layer for absorbing airborne sound. Such a layer is formed, for example, by plant growth or by a layer of a porous material, such as so-called porous lightweight concrete.

A disadvantage of such known soundproofing components that they require a supporting body to meet the static requirements during operation, as well as an absorbent structure, since the body of such conventional soundproofing components is not suitable to meet the stated acoustic requirements. The object of the invention is therefore to provide a soundproofing component of the type mentioned, with which the mentioned disadvantages can be avoided, which is simple and low production costs produced, which meets high static requirements, and which has a, over conventional soundproofing components increased soundproofing.

This is achieved by the features of claim 1 according to the invention.

Such a soundproofing component is formed, which is formed only from the concrete body. As a result, such a soundproofing component has a simpler construction compared to conventional soundproofing components, and can be produced inexpensively and inexpensively with little manufacturing effort. The soundproofing component fulfills the acoustic requirements regarding the absorption capacity of airborne sound by the first surface formed directly by the concrete body. Due to the relatively high density of the additives, an inventive soundproofing component has the necessary static properties to perform this without additional support body made of normal concrete. Due to the high density of the additives, such a soundproofing component furthermore has a high mass, and thus also a high sound insulation capacity.

The subclaims, which as well as the patent claim 1 simultaneously form part of the description, relate to further advantageous embodiments of the invention. The invention will be described in more detail with reference to the accompanying drawings, in which only preferred embodiments are shown by way of example. Showing:

FIG. 1 shows a soundproofing component designed as a soundproofing wall; FIG.

FIG. 2 shows a first embodiment of a soundproofing component designed as a vehicle restraint system; FIG.

FIG. 3 shows a second embodiment of a soundproofing component designed as a vehicle restraint system; FIG. and

Fig. 4 is designed as a soundproof floor plate soundproofing component.

1 to 4 show different preferred embodiments of a soundproofing component 1, wherein the soundproofing component 1 is formed as a one-piece concrete body 2, wherein the concrete body 2 includes aggregates with a density between 2000 kg m and 3000 kg / m, and wherein at least a first surface 3 of the concrete body 2 is designed as an acoustic absorber for damping airborne sound.

Such a soundproofing component 1 is formed, which is formed only from the concrete body 2. As a result, such a soundproofing component 1 has a simpler construction compared to conventional soundproofing components 1, and can be produced inexpensively and inexpensively with a low production cost. The soundproofing component 1 fulfills the acoustic requirements with respect to the absorption capacity of airborne sound by the first surface 3 formed directly by the concrete body 2. Due to the relatively high density of the additives, an inventive soundproofing component 1 has the necessary static properties to perform this without additional support body of normal concrete. Such a soundproofing component 1, due to the high density of the additives further has a high mass, and thus also a high sound insulation capacity.

A soundproofing component 1 is preferably a component which provides or permits protection against sound. Protection against sound in this context means a reduction of the sound pressure by the soundproofing component 1, which is arranged between a sound source and a sound sink. This preferably includes any type or cause of the reduction of this sound pressure level by the soundproofing component 1, for example due to sound attenuation, sound insulation, transmission losses within the soundproofing component 1 and / or reflection losses when the sound waves strike the first surface 3. A component in the sense of a soundproofing component 1 according to the invention preferably designates a structural component or building, which is designed as a one-piece concrete body 2.

According to the invention, it is provided that the concrete body 2 contains or comprises aggregates with a density between 2000 kg / m ³ and 3000 kg / m ³ . The additives are preferably mineral and / or organic grains or particles. It is particularly preferred that the aggregates have a bulk density between 2700 kg / m and 2900 kg / m. The bulk density refers to the density of the aggregate, therefore without the free spaces between the individual grains. Furthermore, it is preferably provided that the aggregates have a bulk density greater than 1200 kg / m ³ , the bulk density denoting the density, including the spaces between the individual grains or particles, therefore the total mass based on the total volume.

According to the invention it is further provided that at least a first surface 3 of the concrete body 2 is formed as an acoustic absorber for damping airborne sound, therefore, that the first surface 3 is formed for damping airborne sound impinging on this first surface 3. For this purpose, it is preferably provided that at least the first surface 3 has pores of predetermined size. A pore is preferably a depression or an opening in or adjacent to the first surface 3. Regions are created through the pores in which energy is removed from the sound waves. Starting from the frequency range in which the first surface 3 is supposed to be effective, the dimensions, hence the dimensions or the size of the pores, result, which can determine both the depth and a surface or shape of the individual pores. The pores are effective as an acoustic damper, provided that these pores have dimensions in the order of the wavelength of the airborne sound waves to be damped.

According to the preferred embodiments, it is provided, in particular for the simple formation of the pores, that the additives have particles with predefinable particle sizes. Preferably, grain fractions of 1/4 mm, 2/4 mm, 4/8 mm or 8/12 mm are provided, the indication 2/4 mm indicating that the aggregates granules with dimensions or grain sizes, also referred to as grain size of 2 mm to 4 mm. In addition, in each case small amounts, in particular less than 20% by weight of the added additives, of aggregates with a grain size of 0 to 1 mm may be provided, which in this sense are fine grain aggregates can be designated. By selecting the grain sizes, the size of the pores, and therefore the effective frequency range, can be predetermined during the production process.

For the formation of the pores can further be provided that the particles of the additives have a discontinuous grading curve. A discontinuous grading curve refers to the fact that certain specifiable grain sizes are not present in the aggregates. As a result, a specification of the type, number and size of the pores can also be achieved. The pores are formed in the two aforementioned preferred embodiments of the concrete body 2, as already stated, by free spaces between individual particles of the aggregates.

In a further development of the invention it is preferably provided that the concrete body 2 at least partially has cavities, wherein it is provided in particular that at least two adjoining cavities are in communication with each other. These cavities designate cavities in the interior of the concrete body, and are preferably formed by adjoining particles of the aggregates. Through these cavities, the internal damping, and thus the sound absorption can be increased, since there is in each cavity - at least in certain frequency ranges - to a radiation of airborne sound, which in turn impinges on another particle, both processes are lossy. In addition, the open arrangement of the particles has a strongly damping or absorbing effect on the transmission of structure-borne sound within the concrete body 2. In this context, it is preferably provided that a plurality of the cavities are in communication with each other and thus formed cavities open into pores of the first surface 3. These additional volumes, which are connected to the pores, each act as a cavity resonator or Helmholzresonator, and significantly improve the sound damping properties of a soundproofing component according to the invention 1. It can be provided in particular that the cavities pass through the concrete body 2 in the manner of a sponge. Preferably, however, it is provided that the concrete body 2 is free of passage openings, which would worsen the sound insulation properties or the sound absorption properties. In this context, it may be provided to form the concrete body 2 as haufwerksporiger concrete.

According to a preferred embodiment of the subject invention, it is provided that an inventive soundproofing component 1 without additional supporting body of normal concrete or the like gets along or can get along, as otherwise at Soundproofing components according to the prior art is provided. An inventive soundproofing component 1 therefore preferably has a substantially homogeneous construction, whereby the additional load-bearing components can be dispensed with, since soundproofing components 1 according to the invention are capable of absorbing the static loads occurring in use.

To improve the static properties of a soundproofing component 1 according to the invention, it is preferably provided that a reinforcement is arranged in the concrete body 2, which may be any type of reinforcement suitable for concrete. Preferably, a substantially corrosion-resistant reinforcement is provided, since due to the cavities moisture can penetrate well into the interior of the concrete body 2. In particular, it is provided that the reinforcement comprises galvanized steel. For good connection of the reinforcement with the cavities partially perforated concrete body 2 is provided in a further development of the invention that the reinforcement is designed as at least two-dimensional framework or structure.

1 to 4 show four preferred embodiments of soundproofing components 1 according to the invention. Soundproofing components 1 according to the invention have a high sound absorption, wherein, for example, a sound absorption of more than 8 dB (A) can already be achieved with a component thickness of 18 cm. Fig. 1 shows a soundproofing component 1, which is designed as a soundproof wall 4. This soundproof wall 4 may have a reinforcement, wherein the soundproof wall 4 is self-supporting in itself, and therefore requires no further support means or holding arrangements. The soundproof wall 4 further has a base, and is free-standing. Soundproofing components 1 according to the invention can also be designed as panels for a soundproof wall 4. Such panels are held approximately in rails or uprights.

2 and 3 show a first and a second embodiment of a designed as a vehicle restraint system 6 for limiting a roadway soundproofing component 1. Such a vehicle restraint system 6, in particular, the rolling noise can be damped near the road. Fig. 2 therefore shows a vehicle restraint system 6, which is formed as a one-piece concrete body 2, whereas Fig. 3 shows a vehicle restraint system 6, which has a support body 7, which is formed approximately from normal concrete. By this combination of the concrete body 2 with a support body 7 can - for particularly stressful applications, such as Lock for safety-related areas - a further increase in the load capacity of such a vehicle restraint system 6 can be achieved.

FIG. 4 also shows a soundproofing component 1 according to the invention, which is designed as a soundproofing floor panel 5. Such soundproof floor panels 5 are preferably provided in so-called. Fixed carriageways in the area of track systems for rail vehicles, as shown in Fig. 4. As a result, the sound emitted by a track system can be significantly reduced. As a result, the noise in a train can be reduced, which travels such a equipped route, as the sound generated by the train is reflected in only a very small amount of the track system and now no longer or greatly reduced impinges on the underside of the train , Especially in tunnels, the use of such soundproofing floor panels 5 is preferred because, in addition to the significant reduction in noise, this also makes it possible to drive on the track system by emergency vehicles. In the case of soundproofing floor panels 5 according to the invention, it is possible - as already stated - to dispense with a special profiling, as is known, for example, in the form of panels with wave- or pyramid-shaped surfaces in the area of sound absorption. As a result, soundproofing floor panels 5 according to the invention can also form the floor of an escape route, since these do not pose a risk of tripping for fleeing people due to their essentially flat surface. Despite the flat surface, such soundproof floor panels 5 have a high sound absorption, with a component thickness of 18 cm already a sound absorption of more than 8 dB (A) can be achieved.

Further embodiments according to the invention have only a part of the features described, wherein each feature combination, in particular also of various described embodiments, can be provided.

Claims

PATENT APPLICATIONS

1. Acoustic protection component (1) characterized in that the soundproofing component (1) is designed as a one-piece concrete body (2), that the concrete body (2) aggregates with a density between 2000 kg / m and 3000 kg / m includes, and that at least one first surface (3) of the concrete body (2) is designed as an acoustic absorber for damping airborne sound.

2. Soundproofing component (1) according to claim 1, characterized in that at least the first surface (3) has pores of predetermined size.

3. Soundproofing component (1) according to claim 1 or 2, characterized in that the additives have particles with predeterminable particle sizes.

4. Soundproofing component (1) according to claim 3, characterized in that the particles of the additives have a discontinuous grading curve.

5. Soundproofing component (1) according to one of claims 1 to 4, characterized in that the concrete body (2) at least partially, in particular contiguous, cavities, which are preferably formed by adjacent particles.

6. Soundproofing component (1) according to one of claims 3 to 5, characterized in that the pores are formed by free spaces between individual particles of the additives.

7. Soundproofing component (1) according to one of claims 1 to 6, characterized in that the concrete body (2) is designed as haufwerksporiger concrete.

8. Soundproofing component (1) according to one of claims 1 to 7, characterized in that the concrete body (2) has a substantially homogeneous structure.

9. soundproofing component (1) according to one of claims 1 to 8, characterized in that in the concrete body (2) one, in particular substantially corrosion-resistant, reinforcement, preferably comprising galvanized steel, is arranged.

10. Soundproofing component (1) according to claim 9, characterized in that the reinforcement is designed as at least two-dimensional framework.

11. Soundproofing component (1) according to one of claims 1 to 10, characterized in that the soundproofing component (1) as, in particular self-supporting, preferably free-standing, soundproof wall (4) is formed.

12. SchallschutzbauteiJ (1) according to one of claims 1 to 11, characterized in that the soundproofing component (1) is designed as a panel for a soundproof wall (4).

13. Soundproofing component (1) according to one of claims 1 to 10, characterized in that the soundproofing component (1) is designed as a soundproofing floor plate (5).

14. Soundproofing component (1) according to one of claims 1 to 10, characterized in that the soundproofing component (1) is designed as a vehicle restraint system (6) for limiting a roadway.