EP2655744B1 - Schallschutzbauteil - Google Patents

Schallschutzbauteil Download PDF

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Publication number
EP2655744B1
EP2655744B1 EP11815841.9A EP11815841A EP2655744B1 EP 2655744 B1 EP2655744 B1 EP 2655744B1 EP 11815841 A EP11815841 A EP 11815841A EP 2655744 B1 EP2655744 B1 EP 2655744B1
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EP
European Patent Office
Prior art keywords
sound
reflection element
absorber
reflection
protection component
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP11815841.9A
Other languages
German (de)
English (en)
French (fr)
Other versions
EP2655744A2 (de
Inventor
Alexander Barnas
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kirchdorfer Fertigteilholding GmbH
Original Assignee
Kirchdorfer Fertigteilholding GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kirchdorfer Fertigteilholding GmbH filed Critical Kirchdorfer Fertigteilholding GmbH
Priority to PL11815841T priority Critical patent/PL2655744T3/pl
Priority to SI201130393T priority patent/SI2655744T1/sl
Publication of EP2655744A2 publication Critical patent/EP2655744A2/de
Application granted granted Critical
Publication of EP2655744B1 publication Critical patent/EP2655744B1/de
Priority to HRP20150091TT priority patent/HRP20150091T1/hr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R1/00Details of transducers, loudspeakers or microphones
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01FADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
    • E01F8/00Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic
    • E01F8/0005Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic used in a wall type arrangement
    • E01F8/0029Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic used in a wall type arrangement with porous surfaces, e.g. concrete with porous fillers

Definitions

  • the invention relates to a soundproofing component according to the preamble of claim 1.
  • soundproofing modules such as noise protection panels
  • noise protection panels which 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 then a, the expected noise source dressed, arranged layer for absorbing airborne sound.
  • a layer is formed by plant growth or by a layer of a porous material, such as porous lightweight concrete.
  • FR 2 873 389 A1 From the FR 2 873 389 A1 is a soundproofing component made of lightweight aggregate concrete with a metal reinforcement known.
  • a noise protection wall made of precast concrete parts is known, the finished parts consist of a load-bearing concrete interior, on the surface of which are thick layers of cellular concrete.
  • a noise protection element for a noise barrier wherein a sound-absorbing layer is arranged on a plate-shaped element.
  • a noise protection element with a reflection element and absorption elements is known, which are arranged on the reflection element.
  • a disadvantage of such known soundproofing components is that they have a large thickness: Furthermore, a retrofitting of existing traffic routes due Of space requirements often difficult.
  • 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 has a small thickness and can be easily adapted to different requirements.
  • the soundproofing component can be thinner than conventional soundproofing components with the same noise protection properties. This reduces the area required for sound insulation. This can improve noise protection in areas where the area available for noise control is low, such as on bridges or in cities. The use of noise control material can be reduced with the same result, making the expansion of the important infrastructure more economical.
  • the soundproofing components according to the invention can be constructed faster due to their small thickness, since these are easier to handle due to their dimensions, or the construction of the foundations due to the lower Space requirement is faster. Thereby, the duration in which an important traffic route is partially or completely blocked by a construction site can be reduced, whereby the damage to the economy, which is caused by congestion, can be reduced. Furthermore, more soundproofing components can be transported on a transport device and the transport costs and emissions during construction can be kept low.
  • the Fig. 1 to 4 show a soundproofing component 1 comprising an absorber element 2 and a reflection element 3, wherein the absorber element 2 is formed self-supporting.
  • the soundproofing component 1 can be thinner than conventional soundproofing components with the same noise protection properties. This reduces the area required for sound insulation. This can improve noise protection in areas where the area available for noise control is low, such as on bridges or in cities. The use of noise control material can be reduced with the same result, making the expansion of the important infrastructure more economical. Furthermore, the soundproofing components 1 according to the invention can be constructed faster due to their small thickness, since these due to their Dimensions are easier to handle, or the construction of the foundations due to the smaller footprint faster. Thereby, the duration in which an important traffic route is partially or completely blocked by a construction site can be reduced, whereby the damage to the economy, which is caused by congestion, can be reduced.
  • the soundproofing component 1 is preferably a component which provides or permits protection against sound or noise. Protection against sound or noise in this context refers to a reduction of the sound pressure or the sound intensity by the soundproofing component 1, which is arranged between a sound source and an area to be protected against high noise pollution. This preferably includes any type or cause of the reduction of this sound pressure level or this sound intensity by the soundproofing component 1, for example due to sound attenuation, sound insulation, Dissipationsmotheren within the soundproofing component 1 and / or reflection losses when hitting the sound waves at interfaces.
  • the soundproofing component 1 is substantially plate-shaped.
  • the operation of the soundproofing component 1 is based in particular on the physical principles, and the associated parameters, which are described below.
  • the sound intensity of a sound wave impinging on a component is essentially reflected, transmitted and dissipated in the component.
  • the prevention of the transmission of the sound intensity by the soundproofing component 1 is called sound insulation.
  • the parameter which is used to indicate the sound insulation properties of a soundproofing component 1 is the sound insulation index, which indicates the ratio between the transmitted and the incident sound intensity in decibels.
  • the prevention of the reflection of the sound energy at the soundproofing component 1 is called sound attenuation or sound absorption.
  • the associated parameter is the sound absorption coefficient, which represents the ratio of the unreflected sound intensity to the incident sound intensity. Both the Schalldämmread and the degree of sound absorption are usually frequency dependent.
  • the absorbed sound intensity not only affects that part of the sound intensity which is converted into heat energy, but additionally includes the transmitted part of the sound intensity. Therefore, the irreversible conversion of sound intensity or sound energy into other forms of energy, such as heat, hereinafter referred to for clarity as dissipation of the sound intensity or the sound energy.
  • absorber element 2 An element which is intended to dissipate a large part of the sound intensity is referred to as absorber element 2 hereinafter.
  • the dissipation of the sound intensity is due to the structure of an absorber element 2 to conditions.
  • One way to dissipate the sound intensity is to use resonators, such as resonant chillers or Helmholtz resonators.
  • Another possibility is the use of porous absorbers.
  • a porous absorber has a dense network of largely interconnected voids which extends to the surface of the porous absorber.
  • the structure of an absorber element 2 is therefore comparable to a sponge and not to a foam having closed cavities.
  • a sound wave which strikes the surface of such a porous absorber is reflected only to a small extent, the greater part penetrates into the interior of the porous absorber, where the sound causes the gas contained in the pores and / or cavities to vibrate. Part of this sound energy is converted into heat energy by the friction between the gas oscillating in the pores and the solid material of the porous absorber and thus dissipated. The larger the volume of the porous absorber, the greater the part of the dissipated sound intensity.
  • the solid material of a porous absorber may be, for example, fibrous material, such as mineral wool, textiles or wood wool, or bound bulk material, for example, bonded rubber chips or cement associated mineral or organic bulk material.
  • the absorber element 2 is a porous absorber. As a result, the absorber element 2 can be produced with little effort.
  • the Material of the absorber element 2 is a hovwerksporiger concrete.
  • the absorber element 2 is easy to produce in large numbers, weather-resistant, and further has good static properties.
  • the haufwerksporiger concrete of the absorber element comprises 2 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.
  • the absorber element 2 has better static properties than the conventional lightweight porous concrete.
  • the aggregates have a gross density between 2700 kg / m 3 and 2900 kg / m 3 .
  • the bulk density refers to the density of the aggregate, therefore without the free spaces between the individual grains.
  • 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.
  • the additives it is provided, in particular for the simple formation of the pores, that the additives have particles with predefinable particle sizes.
  • grain fractions of 2/4 mm, 4/8 mm or 8/12 mm are provided, the indication 2/4 mm indicating that the aggregates grains with dimensions or grain sizes, also referred to as grain size, from 2 mm to 4 mm have.
  • grain size also referred to as grain size
  • small amounts of aggregates with a grain size of 0 to 1 mm can be provided.
  • the size of the pores can already be specified during the manufacturing process. It has been shown that the effective frequency range can be influenced by the size of the pores.
  • 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.
  • a specification of the type, number and size of the pores can also be achieved.
  • the pores are in the two aforementioned preferred embodiments of the absorber element 2, as already stated, by free spaces between individual particles Aggregates formed.
  • the invention provides that a reinforcement is arranged in the absorber element 2.
  • the reinforcement may preferably be formed comprising metal.
  • a substantially corrosion-resistant reinforcement is provided, since due to the cavities moisture can penetrate well into the interior of the absorber element 2.
  • the reinforcement comprises galvanized steel.
  • the reinforcement is designed as at least two-dimensional framework or structure.
  • Such a designed absorber element 2 can achieve a high degree of sound absorption with relatively small thicknesses, or ensure the static load capacity. However, it has been shown that disproportionately large wall thickness would be required by the porous structure for the requirements of sound insulation.
  • the soundproofing component 1 next to the absorber element 2 comprises a reflection element 3.
  • the Schalldämmconsult can be increased, however, thereby the Schallabsorptiopsgrad is reduced.
  • the reflection element 3 is inventively formed differently from the reinforcement.
  • the reinforcement is mainly used to improve the mechanical stability, and in particular to improve or pretend the impact behavior, ie the behavior of the soundproofing component 1 in the event of a collision of a vehicle.
  • the reflection element 3 is used to specify the acoustic properties of the soundproofing component 1, and contributes only insignificantly to the mechanical properties. This offers the advantage that a soundproofing component 1 with optimized mechanical or acoustic properties can be produced much simpler, since the reinforcement can be optimized for the mechanical properties, and the reflection element 3 for the acoustic properties. Since the reflection element 3 does not perform mechanical tasks, the reflection element 3 can be particularly simple and made of a readily available material be educated.
  • the reflection element 3 is substantially plate-shaped, wherein in particular the surface normal of the reflection element 3 is substantially parallel to the thickness direction of the absorber element 2.
  • Essentially plate-shaped in this context means a substantially flat, everywhere the same thickness, on two opposite sides of each one in relation to the thickness very extensive flat area limited form.
  • the total area of the reflection element 3 is preferably smaller than or equal to the total area of the absorber element 2.
  • the height or length of the reflection element 3 is smaller than the height or length of the absorber element 2. This results in simple means only to a regional increase in the Schalldeämmipses, or to a reduction in the degree of sound absorption.
  • the reflection element 3 is formed in several pieces, and is arranged for example in the form of parallel slats or strips.
  • the reflection element 3 is inventively embedded in the absorber element 2, wherein the edge of the soundproofing component 1 is formed only by the absorber element 2.
  • the reflection element 3 at least partially, in particular on at least one side of the soundproofing component 1, forms a part of the edge of the soundproofing component.
  • edge of the reflection element 3 substantially corresponds to the edge of the soundproofing component 1.
  • the thickness of the reflection element 3 can be small.
  • the thickness of the reflection element 3 may preferably be less than or equal to 5 cm, preferably less than or equal to 3 cm, in particular less than or equal to 1 cm.
  • the reflection element 3 should preferably have such a high characteristic impedance that a good part of the sound wave coming from the absorber element 2 is reflected.
  • the characteristic impedance of the reflection element 3 differs from the characteristic impedance of the absorber element 2.
  • the structure-borne noise of the absorber element 2, which is that sound which propagates in the solid material of the absorber element 2 are reflected.
  • the reflection element 3 is substantially free of pores and / or free of hollow bodies, wherein the reflection element 3 has a high sound insulation.
  • the reflection element 3 is formed comprising non-metals.
  • non-metals may be, for example, minerals, plastics or organic materials, bonded building material mixtures of such materials as concrete, or composites such materials.
  • the reflection element 3 can also be formed over a large area with little material expenditure.
  • such materials are also much easier to process than, for example, a steel, which can be used in a reinforcement.
  • the material of the reflection element 3 is a concrete, and / or a fiber cement, and / or a soaked woven fabric and / or a plastic mat.
  • the reflection element 3 can be formed with good acoustic and mechanical properties with low production costs.
  • the absorber element 2 is self-supporting. As a result, in particular no additional support structure is necessary and almost the entire volume of the soundproofing component 1 can be used to dissipate the sound intensity.
  • the soundproofing component 1 is designed as a soundproofing panel for a noise barrier.
  • a noise barrier with soundproofing components 1 according to the invention is provided.
  • the reflection element 3 is arranged in direct contact with the absorber element 2.
  • the space requirement of the soundproofing component 1 can be further reduced in an advantageous manner.
  • the reflection element 3 is attached to the absorber element 2.
  • the reflection element 3 is attached to the absorber element 2.
  • This attachment can be done for example by means of screwing and / or gluing and / or mechanical gearing.
  • the connection can take place in the flowable state and / or during setting.
  • connection can take place in the flowable state and / or during setting.
  • Fig. 1 shows a partial view of an embodiment.
  • This embodiment has the plate-shaped absorber element 2 and the plate-shaped reflection element 3 resting thereon.
  • the side of the soundproofing member 1 having the absorber member 2 as the outer surface is the first side.
  • the side having the reflection element 3 is the second side.
  • the absorber element 2 is made of hard concrete, and the reflection element 3 of fiber cement.
  • the sound wave transmitted through the absorber element 2 impinges with already reduced sound intensity onto a first reflecting boundary surface 7 of the reflection element 3, whereby a majority of the sound intensity is reflected.
  • the non-reflected Part of the sound intensity, which has penetrated into the reflection element 3, is subsequently introduced through the second reflecting boundary surface 8 into a further, not the provided part of the absorber element 2.
  • the transmitted sound intensity is only a fraction of the original sound intensity, whereby a good sound insulation is achieved.
  • the reflected sound intensity at the first reflecting interface 7 is again reduced by the absorber element 2 and ultimately emitted by the first low-reflection interface 5 mostly. This part of the sound intensity reflected from the first side is reduced mainly by the dissipation in the absorber element 2, whereby a good sound absorption is achieved.
  • the reflection element 3 is embedded in the absorber element 2. This can be achieved on both sides good sound absorption. This makes it possible to dispense with an additional attachment of the reflection element 3, whereby a further step or a possible source of error is eliminated. As a result, the reflection element 3 can already be embedded in the absorber element 2 during the production process of the absorber element 2, whereby subsequent attachment is eliminated. As a result, the reflection element 3 is better protected against external influences, whereby the selection of possible materials for the reflection element 3 is increased, since, for example, it is not necessary to pay attention to their UV compatibility.
  • This embodiment of the invention comprises the plate-shaped absorber element 2 and the plate-shaped reflection element 3, wherein the plate-shaped reflection element 3 is embedded in the absorber element 2.
  • the total surface of the reflection element 3 is slightly smaller than the total area of the absorber element 2, whereby the absorber element 2 is not severed by the reflection element 3 and thus is in one piece. It can be provided that the outer dimensions of the reflection element 3 essentially correspond to those of the soundproofing component 1.
  • the absorber element 2 has the first reflection-poor interface 5, which has a Part of the surface of the soundproofing component 1 forms, as well as a second low-reflection interface 6, which is opposite to the first low-reflection interface 5 and also forms part of the surface of the soundproofing component 1, on.
  • the first reflective interface 7 and the second reflective interface 8 are in the embodiment according to the invention in the interior of the soundproofing component
  • the sound intensity in the region of the absorber element 2 between the second reflecting interface 8 and the second reflection-poor boundary surface 6 is very small due to the sound insulation of the reflection element 3. Due to the low sound intensity, only a small amount of sound energy is dissipated in this area, as a result of which a region of the absorber element 2 is not optimally utilized when the sound wave impinges predominantly on one side.
  • the reflection element 3 - seen in the thickness direction of the soundproofing component 1 - is embedded eccentrically in the absorber element 2.
  • the sound absorption coefficient for both sides of the soundproofing component 1 can be chosen differently, whereby the soundproofing component 1 can be better adapted to the local noise protection requirements.
  • the absorptance at the traffic-facing side may be greater than at the traffic-remote side, in that the thickness of the absorber element 2 is greater on the traffic-facing side than on the traffic-remote side, advantageously dispensing with elaborate grading of the acoustic properties of the absorber element 2 can.
  • this allows the volume of the absorber element 2, which dissipates less sound energy due to the lower sound intensity, to be reduced, as a result of which the space requirement and the use of material can be reduced.
  • FIG. 3 and FIG. 4 a particularly preferred embodiment is shown, which represents a development of the embodiment according to the invention.
  • the reflection element 3 has openings 4.
  • the thickness of the absorber element 2 can be further reduced since more volume can be used by the absorber element 2 for the effective dissipation of sound energy.
  • the openings 4 of the reflection element 3 are referred to as a result only openings 4.
  • the ratio of the area of the apertures 4 of the reflection element 3 to the total surface of the reflection element 3 can be chosen freely, whereby the sound reflection on the reflection element 3 can be freely selected in a large range.
  • the degree of sound absorption can be increased at the expense of Schalldämmipses, or vice versa.
  • the soundproofing component 1 can be made thin, with the requirements for soundproofing and sound absorption being met exactly.
  • openings 4 can be formed open-edge, wherein a portion of the opening forms the edge.
  • the size and / or surface of the reflection element 3 and the position of the reflection element 3 in the thickness direction of the absorber element 2 Schalldämmread and sound absorption of the soundproofing component 1 can be optimized. Only two of these parameters can be used.
  • the reflection element 3 is arranged obliquely in the soundproofing component 1. In this case, a different Schalldämmalle and / or a different degree of sound absorption can be provided in different areas.
  • the openings 4 are filled by the absorber element 2.
  • the static properties of the absorber element 2 are improved, whereby the service life of the soundproofing component 1 is increased.
  • the safety of road users can be improved because the risk of static failure of the soundproofing component 1 in the event of an accident can be reduced.
  • the shape of the openings 4 may have any shape.
  • the apertures 4 may take the form of circles, ellipses, squares, rectangles, triangles, stripe patterns, or more complex surfaces exhibit.
  • the openings 4 are formed as a hole structure.
  • the openings can be made with little effort.
  • the reflection element 3 can thereby be formed in one piece, whereby the embedding of the reflection element 3 in the absorber element 2 can be simplified. Due to the one-piece design of the reflection element 3, the mechanical advantages are still given by the composite between absorber element 2 and reflection element 3.
  • the distribution of the openings 4 in the reflection element 3 can be formed in different ways.
  • the apertures 4 can be randomly distributed or arranged in groups.
  • the openings 4 are arranged like a checkerboard. As a result, a uniform distribution of the effect of the openings 4 can be achieved, whereby the absorber element 2 can be optimally utilized to dissipate the sound energy.
  • a noise protection wall having at least one soundproofing component 1 provision may preferably be made for the ratios of the area of the perforations 4 to the total area of the at least one reflection element 3 to be variable in at least one direction. For example, in one direction, for example the height direction or the longitudinal direction, the frequency and / or the size of the perforations 4 may vary. As a result, the acoustic properties of the soundproofing component 1 can be further adapted to the local noise protection requirements.
  • the ratio of the area of the openings 4 to the total area of the reflection element 3 has a gradient in one direction, preferably the height direction of the soundproofing component 1.
  • the ground-level sound can be insulated to a greater extent next to a traffic route, and the higher area of the soundproofing component 1 stronger the sound which reaches the areas to be protected by reflection or diffraction absorb.
  • the soundproofing panels used in the height direction may have different ratios of the area of the openings 4 to the total surface of the reflection element 3.
  • the ratio of the area of the perforations 4 to the total area of the reflection element 3 of the soundproofing panels used a noise protection wall along the height direction and / or a longitudinal direction of the noise protection wall is different.
  • punctual areas such as, for example, individual residential objects located close to the traffic route, can be taken into account.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Structural Engineering (AREA)
  • Civil Engineering (AREA)
  • Signal Processing (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Devices Affording Protection Of Roads Or Walls For Sound Insulation (AREA)
  • Building Environments (AREA)
  • Emergency Protection Circuit Devices (AREA)
  • Thermistors And Varistors (AREA)
  • Vehicle Interior And Exterior Ornaments, Soundproofing, And Insulation (AREA)
  • Laminated Bodies (AREA)
  • Soundproofing, Sound Blocking, And Sound Damping (AREA)
EP11815841.9A 2010-12-23 2011-12-14 Schallschutzbauteil Active EP2655744B1 (de)

Priority Applications (3)

Application Number Priority Date Filing Date Title
PL11815841T PL2655744T3 (pl) 2010-12-23 2011-12-14 Dźwiękoszczelny element budowlany
SI201130393T SI2655744T1 (sl) 2010-12-23 2011-12-14 Konstrukcijski del za protihrupno zaščito
HRP20150091TT HRP20150091T1 (hr) 2010-12-23 2015-01-26 Zvuäśno-zaštitni graä�evni element

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
ATA2125/2010A AT510977B1 (de) 2010-12-23 2010-12-23 Schallschutzbauteil
PCT/AT2011/000495 WO2012083319A2 (de) 2010-12-23 2011-12-14 Schallschutzbauteil

Publications (2)

Publication Number Publication Date
EP2655744A2 EP2655744A2 (de) 2013-10-30
EP2655744B1 true EP2655744B1 (de) 2014-11-05

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EP11815841.9A Active EP2655744B1 (de) 2010-12-23 2011-12-14 Schallschutzbauteil

Country Status (17)

Country Link
US (1) US9538267B2 (ru)
EP (1) EP2655744B1 (ru)
AT (1) AT510977B1 (ru)
AU (1) AU2011349083B2 (ru)
BR (1) BR112013016015A2 (ru)
CA (1) CA2822303A1 (ru)
DK (1) DK2655744T3 (ru)
EA (1) EA025977B1 (ru)
ES (1) ES2529222T3 (ru)
HR (1) HRP20150091T1 (ru)
IL (1) IL227116A (ru)
PL (1) PL2655744T3 (ru)
PT (1) PT2655744E (ru)
RS (1) RS53832B1 (ru)
SI (1) SI2655744T1 (ru)
UA (1) UA110042C2 (ru)
WO (1) WO2012083319A2 (ru)

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AT516032B1 (de) 2014-07-23 2016-02-15 Kirchdorfer Fertigteilholding Gmbh Leitwandelement
DE102016124755B3 (de) * 2016-12-19 2018-02-15 Liaver Gmbh & Co. Kg Schallabsorbierendes Bauelement mit Löschungsprofilen sowie Schallschutzwand
CN107071668B (zh) * 2017-05-24 2019-08-20 歌尔股份有限公司 扬声器模组及电子设备
DE102017113033A1 (de) * 2017-06-13 2018-12-13 Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e. V. Schallabsorbierender Trennvorhang
RU199553U1 (ru) * 2020-05-27 2020-09-07 Павел Анатольевич Аносов Шумозащитная строительная панель

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Publication number Publication date
RS53832B1 (en) 2015-06-30
WO2012083319A2 (de) 2012-06-28
WO2012083319A3 (de) 2012-10-18
IL227116A (en) 2017-04-30
AU2011349083B2 (en) 2016-10-20
PL2655744T3 (pl) 2015-05-29
US20130272551A1 (en) 2013-10-17
EA201390951A1 (ru) 2013-11-29
EA025977B1 (ru) 2017-02-28
EP2655744A2 (de) 2013-10-30
HRP20150091T1 (hr) 2015-05-08
US9538267B2 (en) 2017-01-03
BR112013016015A2 (pt) 2018-06-26
AT510977B1 (de) 2012-08-15
AT510977A4 (de) 2012-08-15
UA110042C2 (ru) 2015-11-10
CA2822303A1 (en) 2012-06-28
DK2655744T3 (da) 2015-02-09
PT2655744E (pt) 2015-02-10
ES2529222T3 (es) 2015-02-18
SI2655744T1 (sl) 2015-03-31
AU2011349083A1 (en) 2013-07-11

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