AT507116B1 - NOISE ELEMENT - Google Patents

Abstract

The invention relates to a noise protection element (1), which comprises at least two superimposed plastic components, wherein a first component has a greater porosity than a second component. According to the invention it is provided that the two components have slots, wherein the slots are arranged one above the other so that sound can pass through the slots.

Description

Austrian Patent Office AT507116B1 2010-09-15

description

NOISE ELEMENT

The invention relates to a noise protection element, which comprises at least two superimposed plastic components, wherein a first component has a greater porosity than a second component.

Furthermore, the invention relates to a use of several noise protection elements.

Finally, the invention relates to a use of scrap tires.

According to the prior art noise barriers have become known, the z. B. are mounted along highways or are, as far as they pass through inhabited area. One problem with the known noise barriers is that they can often only be retrofitted with difficulty or not at all. In addition, an assembly is very expensive and requires heavy equipment. A reduction of the known noise barriers, which may possibly be required, is possible only with great effort. Another disadvantage is that the known noise barriers often have only an unsatisfactory sound absorption and must be built very high. Even in this case, however, a noise impairment in inhabited area can not be completely ruled out, since in the area of highways often Mittelbetonleitwände are provided which have a cross-sectional profile with widened or oblique tail so that sound from a Mittelbetonleitwand be reflected on the per se high noise barriers can.

From DE 42 20 547 A1 discloses a plate-shaped noise protection element of the type mentioned is known. One of the components may be formed with V-shaped folds or recesses, but the components are then spaced apart from each other. Although the noise protection element should have a good sound absorption, however, a sound absorption in such structures seems limited, which is why such a noise protection element could not prevail.

From DE 44 11 003 A1 a noise protection element with a sound insulation layer and arranged thereon, integrally connected sound absorption layer has become known, wherein the sound insulation layer and the sound absorption layer may consist of an elastomer and / or plastic granules, wherein a density of these layers differently is. The layers are formed over the entire surface, so that a sound absorption or absorption is controlled apart from projections on the sound absorption layer at least primarily on the composition or density of the layers, which is similar to a noise barrier according to DE 42 20 547 A1, a sound absorption is limited.

Noise protection elements have become known from DE 75 13 194 U1 and US 2004/0148876 A1, which are constructed, inter alia, with substructures made of concrete and therefore have little or no flexibility.

This is where the invention begins. The object of the invention is to provide a noise protection element having a good sound absorption, easy to assemble and stable, at the same time has a certain flexibility and in particular for Mittelbetonleitwände can be used so that they can be retrofitted with one or more noise protection elements if necessary.

This object is achieved by a noise protection element of the type mentioned, when the two components have slots, wherein the slots are arranged one above the other, so that sound can pass through the slots.

The advantages achieved by the invention are in particular that due to the different porosities of the two components made of plastic, a targeted sound absorption, since the two absorb at least slightly air-permeable components sound of different frequency. Sound absorption is improved by virtue of the fact that the two components have slots, the slots being arranged one above the other. It can thus penetrate sound in the plates and is absorbed depending on the shape of the slots in the slots or the adjacent areas of the components. At the same time, the second component, which has a lower porosity and therefore higher strength, serves as support for the first component. A production of the noise protection element made of plastic makes it possible that this is not only basically lightweight, but also in a simple manner by gluing or other fastening methods, such as screwing on any objects is particularly easy to install. A continuous production of plastics with certain porosities also gives the noise protection element a certain flexibility, so that this can also be arranged on tunnel walls or other locations where a curved contact or contact surface is given. An inventive noise protection element can also be easily attached to a Mittelbetonleitwand or adapted to their shape.

It is particularly preferred that the first component of a compressed fibrous plastic, preferably with an average fiber length of 2 mm to 35 mm, and the second component of a compressed granules of plastic, preferably with an average granule size of 1 mm to 5 mm, is formed. In this case, the advantages presented above are particularly evident. In particular, in this case, the porosities are chosen so that sound is absorbed very well and at the same time consisting of granules component has such a strength that it considers the inherently less stable component of compressed fibrous plastic perfectly supports and therefore keeps its shape, and although even if the noise protection element is mounted bent.

In the manufacture of the noise protection element according to the invention, the finished components can be heated at elevated temperature, e.g. more than 120 ^, be pressed together. It is likewise possible for the first component to be produced first, after which the granulate of the second component is poured onto the finished first component and then compressed and simultaneously contacted with the first component. In the alternative, at least one of the plastics can also be pressed with an adhesive. It is also possible to create both components in one single step by hot pressing.

A sound absorption is as mentioned improved by the fact that the two components have slots, wherein the slots are arranged one above the other. Sound can penetrate into the plates and, depending on the shape of the slots, is also absorbed in the slots or adjacent areas of the components. In this regard, it is expedient that the slits provided in the first component are tapered in cross-section to the second component, so that as much sound as possible to be absorbed can enter and be absorbed therein.

In this context, it also proves to be expedient that the slots are formed at the transition region of the first component to the second component with the same cross section, so that sound to be absorbed penetrates as far as possible in the noise protection element before it absorbs from or in the noise protection element becomes. In this case, the slots provided in the second component may be rectangular in cross-section.

It is expedient, moreover, that a plurality of parallel rows of slots are provided so that sound is absorbed as well as possible.

To provide an inventive noise protection element, which also has a particularly high flexibility, it can be provided that the components are formed as plates, which are preferably connected to each other by pressing at elevated temperature. The plate-shaped design makes it possible that the noise protection element bent without damage and therefore can also be attached, for example, to curved tunnel walls. Furthermore, spacers are preferably attached to the second component. As a result, sound can partially pass through the slits of the noise protection member, is reflected by a surface to which the noise protection member is attached, and then hits a back surface of the noise protection member, so that sound is absorbed at the back of the second component. In this case, the noise protection element can oscillate, which further contributes to an effective sound absorption.

In this regard, it may also be advantageous that in the second component in the region between the slots recesses are provided, wherein the recesses are preferably different depths. The recesses ensure that sound is caught at the rear of the noise protection element as it were, and when wells of different depths are provided, also sound of different frequencies can be effectively absorbed.

An inventive noise protection element can basically be used in all areas where high noise occurs, but is preferably applied along roads or railways, for example in Mittelbetonleitwänden of highways or highways.

When producing a noise protection element according to the invention basically new materials can be used. However, it is preferred that used tires for producing a noise protection element according to the invention are used. The tires, which are no longer used or used tires of particular motor vehicles, can be brought by suitable machines in a fiber or granular form, which is state of the art.

Further features, advantages and effects of the invention will become apparent from the embodiment illustrated below, by which the invention is explained in more detail. In the accompanying drawings, to which reference is hereby made, FIG. 1 shows a noise protection element according to the invention; FIG. FIG. 2 shows a noise protection element according to FIG. 1 in a lateral view; FIG. Fig. 3 is a section along the line III-III in Fig. 1; FIG. 4 shows an inventive noise protection element in an end view; FIG. Fig. 5 is a section along the line V-V in Fig. 1st

In Fig. 1 to Fig. 5, an inventive noise protection element 1 is shown in a possible embodiment. The noise protection element 1 comprises a first component 2 made of a plastic and a second component 3, which is also formed from a plastic. The two components 2, 3 are arranged one above the other and directly connected to each other, for example by pressing at high temperature and / or high pressure, without further elements for a connection of the components 2, 3 are provided. Both the first component 2 and the second component 3 are formed from missed plastic particles of small size. In this case, the first component 2 consists of a fibrous plastic, which is formed of plastic fibers having an average length of 2 mm to 35 mm, preferably 5 mm to 25 mm. The individual fibers, which are preferably obtained by crushing waste tires, are pressed together, wherein, alternatively, an adhesive can be used to better bond the fibers. Due to the fibrous structure of the plastic or the plastic particles, a porous shaped body is obtained during pressing of the first component 2. The second component 3 is also made of a plastic, namely a granules of plastic, which can also be obtained by crushing waste tires. In the production of the second component 3, the granules of plastic as the fibers in the production of the first component 2 is pressed, whereby an adhesive can be added for better bonding. Like the first component 2, the second component 3 is porous. However, due to the use of granules in the production of the second component 3, a higher density or lower porosity of the same results, since the granules packs more densely. This also leads to the second component 3 being more stable than the first component 2, with the secondary effect that the second component 3 serves as a carrier for the first component 2 which is less stable on its own.

The fibers used for the first component 2 and the granules used for the second component 3 are selected in terms of a size of the plastic particles so that the noise protection element 1 has a total sufficient stability, but is still flexible. Also for this reason, an average fiber length of a plastic used for the production of the first component 2 is preferably selected in a range of 2 mm to 35 mm. For larger fiber lengths there is a risk that the first component 2 is not stable enough. On the other hand, shorter fiber lengths than 2 mm lead to a possibly too low porosity. For similar reasons, an average granule size for the granules of plastic for producing the second component 3 is preferably limited to 1 mm to 5 mm. In this area, there is an optimum of stability of the second component 3, which as mentioned also serves as a carrier for the first component 2, and a porosity.

Because of the different porosities of the components 2, 3, these sound absorb different frequencies, so that a good sound absorption is already given due to this configuration.

In use, the noise protection element 1 is for example attached to a Mittelbetonleitwand a highway so that the first component 2 faces a lane, while the second component 3, optionally in the range of spacers 7, is glued to a surface of an object. If, as is apparent in particular from FIGS. 1 and 5, the noise protection element 1 is additionally formed with slots 4, 5, sound can also be absorbed through the slots 4, 5. The slots 4 are formed in the first component 2 in cross section to the lane out approximately with a funnel-shaped cross-section. As a result, incident sound is offered a relatively large surface, so that it can basically also be absorbed at the regions of the first component 2 defining the slots 4. As soon as sound passes through the slits 4, it strikes the slots 5 in the sequence which are formed in the transition region 6 between the first component 2 and the second component 3 with the same cross-section as the slits 4. If sound passes through the slots 5, the sound strikes a surface of an object on which the noise protection element 1 is attached, and is reflected from this surface to the back of the second component 3, wherein the sound due to the porous formation of the second Component 3 is absorbed by this. If the noise protection element 1, as already mentioned, is arranged with spacers 7 on or on a surface, then the noise protection element 1 may also vibrate when sound is applied, which additionally contributes to the absorption of sound. In addition, 3 recesses 8 may additionally be provided in the second component, which lie in those areas which correspond slot-free areas 9 of the first component 2. Reflected sound catches in these recesses 8, so that a further increase in the effectiveness of the sound absorption is possible. The recesses 8 are preferably formed with different depths, so that sound of different frequencies is well absorbed.

In the noise protection element 1 or alternative embodiment variants shown in FIGS. 1 to 5, effective sound absorption in a wide frequency band is effected by several mechanisms: First, the porous formation of the plate-shaped noise protection element 1 is made of plastics or components 2, 3 different porosity a sound absorption. Second, the provided slots 4, 5 contribute to the sound absorption. Thirdly, sound can pass through the slits 4, 5 and impinge on an object surface at an angle due to the spacers 7 and can be reflected by this on the back side of the second component 3 and finally absorbed there. Fourth, reflected sound begins at the back of the second component 3 in the recesses 8, which are preferably formed with different height or depth, as mentioned, so that sound of different frequencies is absorbed. Fifth, the noise protection element 1 4/7

Claims (13)

Austrian Patent Office AT507116B1 2010-09-15 or noise protection mat due to the provided spacers 7 and plate-shaped training also vibrate when exposed to sound, which also contributes to a sound absorption. The noise protection element 1 shown in Fig. 1 to Fig. 5 should have a certain flexibility in particular for fixing the same on curved support surfaces. For this purpose, the first component 2 can be manufactured, for example, with a thickness of 20 mm to 50 mm. The second component 3 may conveniently be formed with a thickness of 5 mm to 20 mm. With regard to the spacers 7, the longest possible design of the same is basically provided. The longer the spacers 7, the greater is an air cushion between an object surface and the back of the second component 3 and the better the sound gets caught between the object surface and the back side of the second component 3. Studies have shown, however, that if the spacers are too long 7 a stability of the attached noise protection element 1 decreases. For practical reasons, it is therefore preferred that the spacers 7 have a height of about 5 mm to 25 mm. The spacers 7 are preferably integrally formed with the second component 3 and are formed during their production. The spacers 7 may be formed instead of the illustrated feet in the form of extending over the longitudinal or broad side strips so that sound between the lens surface and the back of the second component 3 is effectively caught. If several noise protection elements 1 are arranged side by side in a surface, it is sufficient that the peripheral noise protection elements 1 are formed on the outside with continuous strips. 1. Noise protection element (1), which comprises at least two superposed components (2, 3) made of plastic, wherein a first component (2) has a greater porosity than a second component (3), characterized in that the two components (2 , 3) have slots (4, 5), wherein the slots (4, 5) are arranged one above the other so that sound can pass through the slots (4, 5). 2. noise protection element (1) according to claim 1, characterized in that the first component (2) made of a compressed fibrous plastic, preferably with an average fiber length of 2 mm to 35 mm, and the second component (3) of a compressed granules of Plastic, preferably with an average granule size of 1 mm to 5 mm is formed. 3. noise protection element (1) according to claim 2, characterized in that at least one of the plastics is pressed with an adhesive. 4. Noise protection element (1) according to claim 1, characterized in that in the first component (2) provided slots (4) are tapered in cross section to the second component (3). 5. noise protection element (1) according to claim 4, characterized in that the slots (4, 5) at the transition region (6) from the first component (2) to the second component (3) are formed with the same cross section. 6. Noise protection element (1) according to claim 5, characterized in that in the second component (3) provided slots (5) are rectangular in cross section. 7. Noise protection element (1) according to one of claims 1 to 6, characterized in that a plurality of parallel rows of slots (4,5) are provided. 8. noise protection element (1) according to one of claims 1 to 7, characterized in that the components (2, 3) are formed as plates, which are preferably connected to each other by pressing at elevated temperature. 9. Noise protection element (1) according to one of claims 1 to 8, characterized in that on the second component (3) spacers (7) are mounted. 5/7 Austrian Patent Office AT507116B1 2010-09-15 10. Noise protection element (1) according to claim 9, characterized in that in the second component (3) in the region between the slots (5) recesses (8) are provided. 11. Noise protection element (1) according to claim 10, characterized in that the recesses (8) have different depths. 12. Use of several noise protection elements (1) according to one of claims 1 to 11 along streets or railway lines. 13. Use of used tires for producing a noise protection element (1) according to one of claims 1 to 11. For this purpose 1 sheet drawings 6/7