Classifications

• • E—FIXED CONSTRUCTIONS
  • E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
  • E01F—ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
  • E01F8/00—Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic
  • E01F8/0005—Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic used in a wall type arrangement
  • E01F8/0011—Plank-like elements
• • E—FIXED CONSTRUCTIONS
  • E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
  • E01F—ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
  • E01F8/00—Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic
  • E01F8/0005—Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic used in a wall type arrangement
  • E01F8/0047—Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic used in a wall type arrangement with open cavities, e.g. for covering sunken roads
  • E01F8/0052—Grate-style, e.g. as wall facing
  • E01F8/0058—Grate-style, e.g. as wall facing with damping material, e.g. rockwool, sand

Definitions

• the invention relates to a noise absorbing element for a noise screen comprising a plurality of such elements arranged in an edge-to-edge relationship.
• the noise absorbing element has a main surface that in its use position is substantially vertical, it comprises a pliable noise absorbing core material, and it has as a whole rigidity and strength to withstand normal wind load provided transversely to the main surface of the element.
• the invention also relates to a noise screen provided with a plurality of such noise absorbing elements.
• Noise screens or noise barriers for absorbing and/or reducing noise from road traffic, trains, industrial noise, etc. are known in various shapes and structural forms.
• Noise screens can be divided into two main classes: noise screens that are built from scratch on the site and noise screens that comprise noise reducing/absorbing elements that are prefabricated and mounted on the site.
• Noise screens may comprise a rigid or pliable noise absorbing core material. Examples of rigid noise absorbing material are corrugated concrete, lightweight concrete and wood. Examples of pliable noise absorbing core material are mineral wool and rubber.
• the present invention relates only to noise screens comprising a pliable noise absorbing core material which typically is better noise absorbing and/or reducing than rigid noise absorbing materials.
• pliable when used in this specification, is related to a material that is relatively easily compressible in one or more directions, typically materials having a relatively low modulus of elasticity. For instance, concrete, lightweight concrete, metal and wood are not considered pliable since these materials are not compressible in the sense of the present invention, whereas materials such as mineral wool and rubber are pliable materials in the sense of the invention. Specifically, heat and sound insulating materials, such as mineral wool having a compressive strength in the so-called y-direction (transversally to the production line) below 1000 kPa at yield or rupture in accordance with European standard EN 826, are considered pliable in the sense of the invention.
• the compressive strength at yield or rupture is typically between 80 and 500 kPa at a deformation of 0.2 - 5%, and often about 200 kPa at a deformation of 1 - 2%.
• Other materials having compressive strength and/or moduli of elasticity in the same order as that of medium to high density mineral wool are also considered pliable in the sense of the invention.
• a noise screen in the first class of noise screens is typically made by erecting outer walls and arranging a noise reducing/absorbing core material between the outer walls.
• the noise reducing/absorbing material may be soil, mineral wool (loose or in the shape of blocks), gravel, recycled waste material, etc.
• the outer walls of the erected noise screen must be able to withhold the core material, which of course set up limitations in relation to which materials can be used as outer walls. The visual appearance of the noise screen is therefore also limited unless a supplementary covering is provided.
• EP-A1-393 735 shows a noise screen of this type.
• the second class of noise screens are typically built by mounting vertical beams (for instance H-beams) and arranging prefabricated noise absorbing elements between the vertical beams.
• the prefabricated elements may have a height corresponding to the finished noise screen or more elements may be stacked on top of each other in order to reach the desired height.
• the elements are connected to the vertical beams in a suitable manner.
• the noise absorbing elements are pliable or non-rigid and are covered on at least one side by a plate or the like that prevents e.g. wind loads in destroying the noise absorbing elements.
• EP- A2-385 087 and EP-A1-1 032 733 show noise screens of this type.
• horizontal beams loosely connected to the noise reducing/absorbing elements may be provided for restricting deflection of the noise reducing/absorbing elements.
• EP-A2-1 120 496 shows an example of this.
• noise screens in this class the noise absorbing elements are not covered, and an important aspect of this type of noise screens is that the noise absorbing elements must by themselves have sufficient rigidity and strength to withstand physical loads, such as wind loads transversely to the length of the element, since no further structural elements are normally provided.
• the visual appearance of each of the noise absorbing elements is important, since the visual appearance of the noise screen as a whole is given by the appearance of the noise absorbing elements. Therefore, these elements, often called cassettes, are provided with an outer casing or frame that provides structural strength and rigidity to the element as well as provides the desired final visual appearance.
• the pliable noise absorbing core material is arranged inside the casing, which in most cases is partly open at least to the side that faces the source of noise.
• EP-A1-1 479 825 and EP-A1-1 455 018 show a noise screens of this type.
• the present invention relates to the last described type of noise screens, i.e. noise screens made by mounting prefabricated noise absorbing elements adjacent each other, which elements comprise a pliable noise absorbing material and which elements must be sufficiently strong to be able to withstand normal wind load. In accordance with a norm this may be define as a max. deflection of 50 mm under a load of 1.56 kN/m 2 .
• the known elements for this kind of noise screens are quite complex and comprise an outer structural casing made of e.g. metal plates or metal nets and a pliable noise absorbing material arranged inside the casing. This structure of the elements makes them expensive due to the large amount of materials used for the structural and visually appealing casing and the time and labour required for its manufacturing.
• the visual appearance of the whole noise screen is determined by the visual appearance of the noise absorbing elements. If it is desired to change the visual appearance it is necessary to produce new noise absorbing elements or to mount a covering that conceals at least partly the noise absorbing elements. This will further increase the costs of the noise screen.
• This object is achieved by arranging the noise absorbing element mentioned in the opening paragraph in such manner that the pliable noise absorbing core material constitutes an essential structural part of the noise absorbing element.
• the amount of other material can be substantially reduced.
• the pliable core material is arranged as a sort of "filler" in the structural casing of the element without providing any, or only minor, structural strength to the element.
• the structural integrity of the noise absorbing element is highly dependent on the pliable core material.
• the noise absorbing element comprises at least one structural beam extending from one end of the element to the other. This structural beam provides strength to the noise absorbing element, such that the element, which mainly consists of the pliable noise absorbing core material, as a whole is able to withstand wind load transversely to the main surface of the noise absorbing element.
• the at least one structural beam is an H-beam made of metal, such as steel or aluminium, and it has its body part firmly connected to the pliable noise absorbing core material. Due to its cross-section, which provides a large moment of inertia, an H-beam has a big resistance against bending. Thus, it is suitable for providing strength and rigidity to the noise absorbing element.
• the noise absorbing element comprises only one H-beam arranged at a longer edge of the noise absorbing element.
• the opposite longer edge which is not provided with any strengthening element, can be supported by a corresponding H-beam provided on the adjacent noise absorbing element.
• the at least one beam is C-shaped in cross-section with the ends of the C extending into the pliable noise absorbing core material.
• a C- shaped beam also has a large moment of inertia, and hence it provides strength and rigidity to the noise absorbing element.
• the at least one structural beam is made of hardened noise absorbing core material.
• the whole noise absorbing element is made of the noise absorbing core material, which might reduce the manufacturing costs.
• the noise absorbing element may comprise only one structural beam (H-beam). However, if required in order to obtain sufficient structural strength and rigidity the element may comprise two structural beams arranged at two longer edges of the element. Such two structural beams may preferably be interconnected by at least one tension member arranged between the two structural beams. By using a tension member a simple way of providing integrity to the noise absorbing element is achieved.
• the noise absorbing element may comprise two plates of pliable noise absorbing material with the tension member arranged at an interface between the two plates of pliable noise absorbing core material.
• the pliable noise absorbing core material is mineral wool, such as stone wool, glass wool or the like.
• Mineral wool, and in particular stone wool, has shown excellent noise absorbing and/or reducing properties.
• the density of the mineral wool should be between 100 and 200 kg/m 3 , preferably between 120 and 180 kg/m 3 , more preferably between 130 and 150 kg/m 3 , most preferably approximately 140 kg/m 3 . At these densities the noise absorbing and/or reducing properties have shown to fulfil most requirements of noise absorbing/reducing. In certain applications the density might be lower than the preferred 140 kg/m 3 , such as about 125 kg/m 3 , which would often mean that the thickness of the noise absorbing core material should be increased in order to obtain a satisfactory noise absorbing.
• the pliable noise absorbing core material of stone wool has a binder content of between 2 and 10 weight-%, preferably between 3 and 8 weight-%, more preferably between 4 and 6 weight-%.
• the pliable noise absorbing core material is substantially fully exposed on at least one side of the element.
• the pliable noise absorbing core material may, however, be covered by a protective layer at least on the main surfaces of the noise absorbing element.
• the protective layer protects the pliable noise absorbing core material from being damaged by flying stones, birds and other animals.
• the protective layer is preferably a small-meshed PE net.
• the noise absorbing element may comprise at least one noise reducing plate member extending between the two longer edges of the element. It is well known that such a plate member increases the noise reduction substantially.
• the noise reducing plate member need only to be arranged at one side of the noise absorbing element, namely on the side that does not face the source of noise.
• the noise screen is to absorb/reduce noise from both sides it is preferred to arrange the pliable noise absorbing core material on both sides of the noise reducing plate member.
• the noise reducing plate member may be connected to the at least one structural beam of the element. Thereby the structural integrity of the noise absorbing element can be increased.
• the noise absorbing element is preferably rectangular having a length between 2m and 6m, preferably between 3m and 5m; a width between 0.2m and 1.5m, preferably between 0.4m and 0.8m; and a thickness between 5 and 50 cm, preferably between 10 and 25 cm. With these dimensions each noise absorbing element can be handled without heavy equipment which reduces the mounting costs.
• the invention also relates to a noise screen comprising a plurality of noise absorbing elements as described above.
• the noise screen comprises a plurality of vertical or horizontal beams with the noise absorbing elements arranged between the beams and connected thereto, the main surfaces of the noise absorbing elements being substantially vertical.
• the noise absorbing elements are made as simple as possible the visual appearance thereof has not been in focus. Thus, it is often desired to provide an outer decorative covering on at least one side of the noise screen.
• the outer decorative covering is preferably interconnected with structural parts of the noise absorbing elements, such that the integrity of the noise screen as a whole is increased.
• the outer decorative covering may be made from metal, wood, plastics, textile or any combination thereof.
• the noise screen comprises a plurality of vertical H beams with the ends of the noise absorbing elements being arranged between the flanges of the H beams. This provides a simple structure that can be easily mounted on the site of the noise screen.
• Figure 1 shows a noise screen according to the invention
• Figure 2 shows a first embodiment of noise absorbing element according to the invention
• Figure 3 shows a second embodiment of a noise absorbing element according to the invention
• Figure 4 shows a third embodiment of a noise absorbing element according to the invention.
• Figure 5 shows a fourth embodiment of a noise absorbing element according to the invention.
• Figure 1 shows a noise screen 1 made in accordance with one aspect of the invention.
• the noise screen 1 comprises a plurality of vertical beams 2 that define sections for noise absorbing elements 3 mounted between the vertical beams 2.
• each section comprises four noise absorbing elements 3 stacked on top of each other.
• the number of noise absorbing elements 3 may of course be varied in dependency of the desired height of the noise screen 1 as well as the height of each noise absorbing element 3.
• Figure 1 also shows a decorative covering 4 in the form of a perforated plate provided on one side of the noise screen 1. For illustrative reasons one of the noise absorbing elements 3 and the decorative covering 4 have been partly cut away.
• the noise screen 1 is erected by first mounting the vertical beams 2 in the ground in a safe manner. This may be done either by forcing one end of the vertical beams 2 into the ground, embedding one end of the vertical beams 2 in concrete or by firmly securing one end of the vertical beams 2 to a concrete block that has been dug into the ground. This detail is not a part of the present invention and will not be described any further. A person skilled in the art can easily specify the best way to mount the vertical beams 2 for a given noise screen 1. In the embodiment shown in Figure 1 the vertical beams 2 are so-called H- beams, i.e. beams 2 having an H-shaped cross-section comprising a body part 5 and two flanges 6.
• the noise absorbing elements 3 are mounted between the vertical beams 2 by positioning the ends of the noise absorbing elements 3 between the flanges 6 of each vertical beam 2.
• the ends of the noise absorbing elements 3 are preferably secured to at least one of the flanges 6 of each vertical beam 2.
• Below the lowest noise absorbing element 3 in each section a "ground element” 7 may be mounted in order to ensure a straight lower surface for the lowermost noise absorbing element 3.
• the ground element 7 may be concrete cast on the site, or it can be a beam of concrete or steel mounted between the vertical beams 2 before the lowermost noise absorbing element 3 is mounted.
• each noise absorbing element 3 has by itself sufficient strength and rigidity to withstand normal wind load transversely to the main surface 8 thereof.
• the noise wall 1 consists only of the vertical beams 2 and noise absorbing elements 3 - plus any relevant fittings for securing the vertical beams 2 to the ground and the noise absorbing elements 3 to the vertical beams. It is essential to the invention that no further structural parts need to be included in order to ensure a firm and stable noise screen 1.
• the decorative covering 4 shown as a perforated plate in Figure 1 serves primarily a decorative purpose and no structural performances of the noise screen 1 is based on it being present.
• the pliable noise absorbing core material 9 has as the basic function to absorb noise as it is known from prior art noise absorbing elements where the pliable noise absorbing core material is arranged within an outer casing that provides structural strength to the noise absorbing element.
• the pliable noise absorbing core material 9 has an additional function, namely to be an essential structural part of the noise absorbing element 3, such that no outer casing is needed.
• the pliable noise absorbing core material 9 consists of mineral wool, preferably stone wool. This material has excellent noise absorbing properties and by using a density of the stone wool of about 140 kg/m 3 the noise absorbing and even noise reducing properties are very good.
• the noise absorbing element 3 is in many applications possible to make the noise absorbing element 3 as thin as 120 mm and still fulfil the requirement of noise absorbing and reducing. In case higher noise absorbing and/or reducing is required the thickness of the noise absorbing element 3 can be increased and/or a plate element may be included (see below).
• a noise absorbing element 3 made primarily of stone wool can be made with sufficient rigidity and strength if the span between two vertical beams 2 is not too large. However, often the span between two vertical beams 2 will be 3 to 4 metres or even up to 6 metres. If this is the case it is necessary to strengthen the noise absorbing element 3 against deflection due to wind load transversely to the main surface 8 of the noise absorbing element 3. In a preferred embodiment this is done by incorporating at least one structural beam 10 that extends from one end of the noise absorbing element 3 to the other. The structural beam 10 must have a big resistance against deflection in a direction transversely to the main surface 8 of the noise absorbing element 3. This is accomplished by ensuring that it has a certain extent in the transverse direction and at the same time ensuring that it is firmly connected to the noise absorbing core material 10 such that twisting of the structural beam 10 is prohibited.
• the structural beam 10 In a first embodiment shown in Figure 2 only one structural beam 10 is arranged at each noise absorbing element 3.
• the structural beam 10 consists of an H-beam that is arranged at one of the longer edges 11 of the noise absorbing element 3 and is firmly secured to the pliable noise absorbing core material 9. This may be ensured by gluing the body part 12 of the H-beam to the pliable noise absorbing core material 9 or by any other suitable means.
• the outer flanges 13 of the H-beam may extend into the noise absorbing core material 9 or they may be positioned externally of the pliable noise absorbing core material 9 as shown.
• the structural strength against deflection transversely to the main surface 8 of the noise absorbing element 3 is achieved by arranging a structural beam 20 at each of the longer edges 11 of the noise absorbing element 3.
• Figure 3 shows a noise absorbing element 3, wherein the pliable noise absorbing core material 9 constitutes an essential structural part of the noise absorbing element 3 supported by the two structural beams 20.
• Each of the structural beams 20 is C-shaped with the ends of the C extending into the pliable noise absorbing core material 9 to ensure a firm connection between the structural beams 20 and the pliable noise absorbing core material 9.
• Glue may be applied between the structural beams 20 and the pliable noise absorbing core material 9.
• one of structural beams 20 is provided with an outwardly protruding tongue 21 which is complementary with a groove 22 provided in the other structural beam 20. Thereby a good connection between stacked noise absorbing elements 3 is ensured.
• a noise reducing plate member 23 is provided on the side facing away from the source of noise.
• the plate member 23 may be made of any suitable material such as steel, aluminium, plywood, etc.
• the plate member 23 may be secured to the pliable noise absorbing core material 9 as shown and/or to the structural beams 20.
• FIG 4 a third embodiment of a noise absorbing element 3 according to the invention is shown.
• In this embodiment there are arranged two plates of pliable noise absorbing material 9 abutting each other.
• Each of the two plates of pliable noise absorbing material 9 is provided with a notch 31 at the top edge and at the bottom edge.
• Each notch 31 receives an outer flange 32 of an upper and a lower C-shaped structural beam 30.
• the structural beams 30 primarily serve to provide resistance to noise absorbing element 3 against deflection in a direction transversely to the main surface 8 of the noise absorbing element 3.
• the structural beams 30 also serve to keep the two plates of pliable noise absorbing material 9 together by means of the flanges 32 that is received in the notches 31.
• the upper and lower structural beams 30 are held together by one or more tension members 33 that expand from the upper to the lower structural member 30 between the two plates of pliable noise absorbing material 9.
• the tension member 33 is preferably a rigid steel rod, but it might as well be a wire or any other kind of element that is suitable to interconnect the upper and lower structural beams 30 through the interface between the two plates of pliable noise absorbing material 9.
• the tension member 33 In order to connect the tension member 33 to the upper and lower structural beams 30 it is provided with a head at one end that engages an opening in the lower structural beam 30 (not shown). At the other end of the tension member 33 there is provided a lifting eye 34 that in it mounted position engages an elongate opening 35 in the upper structural beam 30.
• the lifting eye 34 has such a size that it can pass through the elongate opening 35 when it is turned 90°, but in its mounted position as shown the lifting eye 34 cannot pass through the elongate opening 35.
• the elongate opening 35 has such a shape that the tension member 33 can be displaced from a loose connection state shown with a dotted line to a locked firm connection state shown with a solid line.
• the loose connection state where the tension member 33 extends substantially perpendicular to the structural beams 30, the upper and lower structural beams 30 are so much separated that it is possible to arrange the plates of pliable noise absorbing material 9 between the structural beams 30.
• the tension member 33 is displaced in the elongate opening 35 as indicated with the arrow A to the locked firm connection state.
• the tension member 33 In the locked firm connection state the tension member 33 is sloping, i.e. non- perpendicular to the structural beams 30, which means that the distance between the structural beams 30 is reduced in relation to the distance when the tension member 33 is in the loose connection state.
• the structural beams 30 are therefore forced into close connection with the edges of the plates of pliable noise absorbing material 9 when the tension member 33 is displaced from the loose connection state to the locked firm connection state.
• the tension member 33 has such a length that the pliable noise absorbing material 9 exerts a stress in the tension member 33 when it is in the locked firm connection state.
• the tension member 33 also serves as a handling aid, since the noise absorbing element 3 can be lifted by connecting lifting means to the lifting eye 34.
• the noise absorbing element 3 can be lifted by connecting lifting means to the lifting eye 34.
• tension members that are not provided with a lifting eye, since only one or two lifting eyes are necessary on each noise absorbing element 3.
• the lower structural beam 30 is preferably provided with openings (not shown) to receive the lifting eyes 34.
• the structural beams 10,20,30 may be made of any suitable material, such as steel or aluminium. Plastics or a fibre reinforced material could also be an option. They may be standard beams, or they may be tailor-made for the specific purpose. Specifically, they may be extruded aluminium profiles, whereby it is possible to incorporate various flanges or even cavities when seen in cross-section.
• Figure 5 shows yet another embodiment of a noise absorbing element 3 according to the invention.
• the noise absorbing element 3 is provided with structural beams 40 that are made of the same material as the pliable noise absorbing core material 9 in a compressed or hardened form. If the pliable noise absorbing core material 9 is stone wool the structural beams 40 are made by compressing the stone wool to a very high density, such as 300-500 kg/m 3 . Three structural beams 40 are provided in the embodiment shown, but the number may of course be adjusted in accordance with the strength requirements.
• the decorative outer covering 4 shown in Figure 1 serves primarily a decorative purpose and no structural properties are based on it being present. This also means that the noise screen 1 may be erected without any decorative covering 4 if desired. Moreover, since mounting of a decorative covering 4 is optional it is possible to choose almost any kind of covering. Thus, it may be desirable to omit any decorative covering 4 towards the source of noise, which might be a traffic road, whereas the opposite side, which might be facing a dwelling area, is provided with a decorative covering 4. However, in most cases it will be desirable to have a decorative covering 4 on each side of the noise screen 1.
• a decorative covering 4 may be connected to the vertical beams 2 in any suitable manner, e.g. by screws. It may also be connected to the structural beams 10,20,30,40 of the noise absorbing elements 3 between the vertical beams 2 in order to ensure integrity between the noise absorbing elements 3 and the decorative covering 4. This interconnection between the noise absorbing elements 3 and the decorative covering 4 will in many instances also provide further strength and rigidity to the noise screen 1 as a whole. It is important, however, that the stability and strength of the noise screen 1 is not dependent on the presence of the decorative covering 4.
• a decorative covering 4 is provided on the side facing the source of noise it preferably has a perforating degree of at least 35%, i.e. at least 35% of the pliable noise absorbing core material 9 is exposed to noise.
• the decorative covering 4 may be made of any suitable material. Examples are perforated wooden boards, perforated aluminium or galvanized steel plates, boards of compressed stone wool, nets of steel rods, woven willow branches, etc.
• a protective layer on the main surface of each noise absorbing element 3.
• protective layers are a thin layer of non-woven glass fibres, a small- meshed PE-net 24 (see Figure 3), etc.
• the invention has been described with reference to four different embodiments of a noise absorbing element comprising mineral wool as the pliable noise absorbing core material.
• the invention is of course not restricted to these specific embodiments.
• the invention relates to any noise absorbing elements and noise screens that comprise a pliable noise absorbing core material that constitutes an essential structural part of the noise absorbing element.

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• 2005
  • 2005-09-29 EP EP05388081A patent/EP1770216A1/de not_active Withdrawn
• 2006
  • 2006-09-28 WO PCT/DK2006/000531 patent/WO2007036231A1/en active Application Filing
  • 2006-09-28 EP EP06776006A patent/EP1929092A1/de not_active Withdrawn

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