DE1924734A1 - Soundproofing element - Google Patents

Description

The invention "relates to acoustic or S c hall dams! Ement e.

According to the invention, a soundproofing element has at least one surface layer that includes a number of openings or holes and at least one underlying layer, hereinafter referred to as the lower layer, which consists of a three-dimensional lietswerk formed material that is arranged so that a number of interconnected cell-like Rooms are created ⁷ / ""

The surface layer and the underlayer can be directly connected to each other be connected, or there can be one or more intermediate layers made of porous material. The. Layers can be firmly bonded or glued together be, for example by means of an ICL eb st of fs, or they can

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be welded together. The layers can also form a "whole" in one piece.

The lower layer can consist of an open-pored plastic foam consist, for example, of networked! or polyurethane foam formed like a network structure or made of porous metal schauni. If the layer consists of a porous metal hem, it can pass through Spraying, a dipping process or as a galvanic metal deposit on a porous material. The porous Material .can consist of a fiber agglomerate, 'for example' a Felt material, or a sehwamin-like or foam material, such as ITa door sponge, or a synthetic resin foam. in the Polyurethane foams are generally preferred. The porous material can remain in the metal or be removed, for example by heating until it melts or by burning out ~~ tash out).

If a high degree of porosity is required, a cross-linked or network-like foam can be used, i.e. a Foam in which the organic phase is designed as a three-dimensional network largely without land sections, so that cells develop. This network structure-like look can be created by making the relatively thin cell walls out of the foam removed, for example by chemical means such as aqueous sodium hydroxide in the case of polyurethane foams ..

If the metal is electrodeposited, it is of course necessary to use an electrically conductive, porous material or the material must be made electrically conductive by means of a conductive surface layer; non-conductive materials can be made intrinsically conductive by additives such as graphite or metal powder Surface conductive layer can be applied by coating the material with a hardenable resin which is provided with a conductive additive or by depositing metal on chemical Vega,

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"for example by reducing ammonialcalischera silver nitrate in situ. If a chemical deposition process is used, so generally the surface should be treated with a sensitizing additive such as stannous chloride followed by palladium chloride for silver, to be treated.

Electrodepositable metals include silver, copper, winding and iron. Alloy foams can be created by direct cladding in some cases and in other cases two or more metals are deposited in succession, the alloy being produced by heat treatment of the resulting structure. Steel foams can be made by embedding the required amounts of carbon and / or nitrogen are generated. The carbon can consist of an organic material, that forms the basic hem, or it can be added to an electroplating bath.

The resulting alloy foams can of course heat treated to achieve desired physical properties. These methods of heat treatment are in the Known to experts.

Alternatively, a porous ceramic material can also be used for this. “.Oas ceramic material itself can be designed as a network or it can consist of a coating on a metallic network.

The surface layer can be made of fabric or another mesh design exist, for example with a mesh size of 4 to 60 meshes / cia .. The mesh structure can, for example consist of plastic or metal and - if desired - be provided with a decorative external finish. Alternatively, it can be identical to or different from the lower layer an open-pored material is used will. The porosity of the top layer should be less than

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those of the lower layer, for example, degrees of porosity of the surface layer of 8 Ms 40 pores / cm and for the lower layer of approximately : 3 "to 20 pores / cm are suitable.

A special soundproofing element according to the invention is provided by Metallization of a plastic foam produced, which has at least two layers of different porosity. To this Alternatively, a unitary soundproofing element, i.e. consisting of one piece ", can be produced.

Palis, if desired, an air gap can be included in the element be. The element can be provided with supports made of metal, plastic or other suitable material.

The soundproofing elements according to the invention are particularly used where elements are required that both fire and are heat-resistant, for example as xeit channels in nozzle units, turbines, at air inlets and outlets, on air-gondition systems. These metal elements are very robust and can be implemented in various forms, with the following necessary processing operations can be reduced.

The invention is described below, for example, with reference to FIG the drawings explained.

Fig. 1 shows a cross section of a silencer element in a damper.

Fig. 2 shows a cross-sectional view of the rear end a nozzle unit which is provided with a soundproofing element.

Fig. 3 shows the rear end in cross-section a nozzle unit which is provided with another embodiment of a soundproofing element.

In Fig. 1 i3t a sound insulation element that is circular in plan view 10 shown in connection with a silencer 11. The element consists of a top layer 12 made of porous metal

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foam and a sub-chic lit 13 made of porous metal, whose The porosity is greater than that of the top layer 12.

Pig. 2 shows a sound insulation element in a jacket tube 14 on the rear end of a nozzle unit. The element has a surface "or top layer 15 made of porous metal foam and a bottom layer 16 made of porous metal foam, the latter has a greater porosity than the top layer 15.

]? ig. 3 shows a sound insulation element in FIG. Sheath 17 at the rear End of a nozzle assembly. The element consists of two concentric hollow cylinders 23 and 24. The cylinders are interconnected Connected via Stutζelemente 18. The outer cylinder 24 consists of an upper layer 21 made of porous metal foam and has a lower layer 22, also made of porous metal foam, on, which has a greater porosity than the top layer. The inner cylinder 23 comprises a top layer 19 of porous metal foam and a lower layer 20, also made of porous metal foam, with a greater degree of porosity than the upper class 19.

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Claims (13)

Claims 1. Element for sound insulation, characterized by at least a surface layer including a number of openings or holes and through at least one underlying Lower layer of a three-dimensional network formed material arranged to create a number of interconnected cellular spaces. 2. Element according to claim 1, characterized in that the lower layer is produced in that a galvanic Metal deposit is generated on a porous base. 3. Element according to claim 2, characterized in that the porous Underlay is a network-like foam. 4. Element according to claim 3, characterized in that the network-like foam is a network-like meshed polyurethane foam is. 5. Element according to at least one of the preceding claims, characterized in that the surface layer is produced as a galvanic metal deposit on a porous base will. 6. Element according to at least one of the preceding claims, characterized in that the porosity of the surface layer is smaller than that of the layer below. 7. Element according to claim 6, characterized in that the surface layer has a porosity of 8 to 40 pores / cm. 909848/0745 8. Element according to claim 6 or 7 »characterized in that the underlying layer has a porosity of approx. 3 to 20 pores / cm. 9. Element according to at least one of the preceding claims, characterized in that one or more intermediate layers made of porous material are embedded between the top and bottom layers. 10. Element according to at least one of the preceding claims, characterized in that the layers are firmly adhered by Welding are connected to each other. 11. Element according to at least one of claims 1 to 9, characterized in that the layers are firmly adhered by adhesive are connected to each other. 12. Element according to at least one of claims 1 to 9, characterized characterized in that two or more layers form a unitary whole. . 13. Element according to at least one of the preceding claims> characterized in that one or more of the layers are heat treated. 909848/074 -H- Blank page