EP0498261A2 - Sound insulation for containers, apparatus and pipelines - Google Patents

Abstract

The invention relates to sound insulation for containers, apparatus and pipelines, these being insulated by means of spacers with an outer wall, and if necessary a porous absorber, e.g. mineral wool, is arranged in the interspace, an intermediate wall being arranged as sound insulation before the outer wall, with a thickness of about half that of the outer wall and a spacing from it of about 0.5 mm. <IMAGE>

Description

The invention relates to sound insulation for containers, apparatus and pipes according to. the preamble of claim 1, as used in plant construction, when sound sources are arranged in them or noise is radiated into them and the environment is therefore exposed to sound via their wall.

In plant engineering, such containers, apparatus and pipelines often emit sound, so that they have to be soundproofed. The containers, apparatuses or lines are expediently encased with an outer wall, usually made of sheet metal, an anti-drumming covering also optionally being applied to the outer sheet on the inside or outside. The outer wall is usually at a distance of about 10 cm to 30 cm from the noise-emitting wall. In the intermediate space, e.g. for heat and sound insulation Mineral wool can be introduced.

Due to the increased noise emission requirements, it has been shown that noise reduction can often only be achieved by using the appropriate anti-drumming coatings on the outer wall. The application of these coverings is complex, environmentally harmful and expensive. The invention is therefore based on the object of replacing this anti-drumming coating with another suitable measure.

According to the invention, this is done by attaching an intermediate wall in front of the outer wall. This partition then vibrates due to the sound and the sound waves are converted into mechanical vibrations, whereby the sound is absorbed.

Advantageous embodiments of the invention are characterized in the subclaims.

The attachment of this additional sheet on the outer sheet is extremely easy to do.

In order to achieve a high absorption efficiency, the distance between the intermediate wall and the outer wall should be approximately 0.01-1 mm. A space between 0.3 and 0.7 mm is particularly suitable. The constant distance between the two walls is not decisive.

It can also prove expedient, if particularly high demands are placed on the noise emission, to additionally provide the outer wall or the intermediate wall with an anti-drumming slip.

In the magazine "Acustica", volume 51, 1982, pages 201-212, the article "Structure-borne noise damping by means of gas or liquid layers" by A. Trochidis describes the theory of the arrangement according to the invention.

In practice, however, this proposal has not yet been applied, presumably because it was considered too expensive and not very effective acoustically. However, recent studies of the application have shown that in practice in the case of containers, apparatus and pipelines in plant construction, the sound insulation according to the invention is outstandingly suitable for reducing the sound radiation. It has also been shown that the application of this known theory in practice is at least as effective as an anti-drumming coating.

The invention will now be briefly explained with reference to FIGS. 1 and 2:
In noise-filled systems, such as ducts or components, the wall of which is designated 1, an outer sheet metal shell 6 is applied to the outside of the wall, which now improves the sound insulation in conjunction with acoustic damping 2 of the cavity between the outer wall and the sheet metal shell in front. If there are high acoustic requirements for the improvement of sound insulation, the outer, usually 1 - 2 mm thick sheet metal shell is now covered with anti-drumming materials 5, usually 2 - 3 times the sheet thickness. This increases the sound insulation by the fact that the weight per unit area increases significantly and that Bending shafts can be dampened in the outer sheet metal shell. The outer sheet metal shell 6 is held by means of spacers 3. Sound absorption material, for example mineral wool 2, is introduced into the intermediate layer. A substructure 4, for example a profile, can be arranged on the spacer 3. The outer plate 6 is fastened thereon by means of screws or rivets 8. In many cases, an anti-drumming coating 5 is now additionally applied to the sheet 6. This is glued or sprayed or filled. The solvent evaporates and the anti-noise coating with a thickness of two to three times the thickness remains on the sheet. This application method is harmful because of the solvent vapors, and is also time-consuming and therefore expensive. In addition, the anti-drumming covering is not heat-resistant and even flammable.

Fig. 2 shows the application of the invention to such components. The intermediate wall 7 according to the invention is attached in front of the sheet metal wall 6. This sheet of metal is about half as thick. It is only necessary to ensure that a small air gap 9 of approximately 0.5 mm remains between the two sheets. This can e.g. at the fastening points of the outer sheet metal shell by placing a 0.5 cm thick sheet of metal underneath. The advantages according to the invention are, in particular, simple assembly, the solution according to the invention can also be subjected to high temperatures, and is also non-combustible, cheaper and lighter.

Claims (7)

Sound insulation for containers, apparatus and pipelines (1), these being insulated with an outer wall (6) by means of spacers (3), and a porous absorber (2), for example mineral wool, is arranged in the space.

characterized,

that an intermediate wall 7 is arranged in front of the outer wall 6 as sound insulation, with a thickness of approximately half of the outer wall 6 and a distance from the latter of approximately 0.5 mm. Sound insulation according to claim 1,

characterized,

that the distance is 0.01 - 1.0 mm. Sound insulation according to claim 1,

characterized,

that the distance is 0.1 - 0.8 mm. Sound insulation according to one of claims 1-3,

characterized,

that the attachment of the intermediate wall 7 and the outer wall 6 is acoustically decoupled. Sound insulation according to one of claims 1-4,

characterized,

that an anti-drumming coating is additionally applied to the outer wall 8 or the intermediate wall 7. Sound insulation according to claims 1-5,

characterized,

that the distance between the outer and intermediate wall is effected by spacers. Sound insulation according to claims 1-5,

characterized by

that the distance between the outer and intermediate wall is caused by the natural unevenness of the thin sheets.

Images