DE102010044224A1 - Multifunctional multilayer plate for engine compartment of e.g. land vehicle, has micro-perforated outer layer formed on porous absorbent layer on molded section, and rectangular projections which are formed in molded section - Google Patents

Abstract

The multilayer plate (10) has a multilayer molded section (11) in which porous absorbent layer (12) is formed. A micro-perforated outer layer (13) is formed on the porous absorbent layer, and is provided with aluminum surface. Several rectangular projections (14) are formed in the multilayer molded section to form subdivided plate elements. An additive film (15) is formed between the porous absorbent layer and micro-perforated outer layer. An independent claim is included for manufacturing method of multifunctional multilayer plate.

Description

The invention relates to a multifunctional multilayer board with sound-absorbing and heat-insulating properties for use in acoustically and / or thermally stressed areas, in particular in engine compartments of land and sea vehicles, in stationary engine rooms, etc., consisting of a multilayer molding. The invention also relates to a method for producing such a multifunctional multilayer board.

Basically, such multifunctional multi-layer panels must be made of a suitable thickness in order to be able to absorb sound and of a material which has good sound absorption properties over a wide frequency spectrum. In practice, plates with a minimum thickness of 25 mm and a maximum thickness of 100 mm have proven successful. The materials used to construct such plates include a variety of open-pored constituents, which are necessary for absorption of the sound striking the surface. These materials include glass wool ingredients and other mineral pulps, foams, polyester pulps, and cotton pulps. While all of these materials absorb sound, they can also absorb fluid, which is undesirable. In many cases, the base materials also include combustibles, especially if they have absorbed flammable liquids. A typical method for preventing the ingress of liquids is to provide the carrier absorption material with a thin membrane, it is exemplified on DE 27 42 768 C2 directed. While this prevents liquids from penetrating, on the other hand, it negatively affects the sound-absorbing ability of the carrier absorption material, with thicker membrane enhancing this effect. These membranes also tend to be easily holes, because they are naturally very thin.

The plate thickness can lead to further difficulties, especially if the plates are made of inelastic materials, because they can not easily be made into a desired shape, because the edges must be resealed when cut and because they are secured through the plates the impermeable surface is damaged. This could be avoided by making plates individually tailored to the desired shapes, including mounting holes, but this is expensive and requires elaborate machining. It is desirable in particular here to avoid these disadvantages of the known multifunctional multilayer plates and the process for their preparation.

Based on this, the object of the present invention is to improve or further develop the known multifunctional multilayer plates and the processes for their production while retaining the previous advantages in such a way that the disadvantages of the previously discussed solutions are avoided, in particular also very good sound absorbing and heat insulating properties are to be achieved. The desired arrangement should also be easy and inexpensive to produce.

This object is achieved in terms of the multifunctional multilayer plate according to the invention that the multilayer molded body at least one i. w. porous absorption layer and a microperforated outer layer, wherein the multilayer molded body as i. w. rectangular, divided into a number of rectangular projections plate member is formed. In this way, for the first time with simple means a multifunctional multilayer plate is created, which has excellent acoustic properties due to the micro-perforation with attached porous absorber, which is thermally highly resilient due to their material composition and can be easily bent or cut at the wells by their type relief structure in order to adapt to the spatial requirements. The rectangular projections also give the plate an acoustically very efficient surface profile, with a larger surface area than that of a flat plate.

In the preferred embodiment of the present invention, the rectangular projections of the plate member i. w. square shaped.

It is recommended according to a further feature of the present invention that the plate member is formed compressed between the rectangular projections. Thus, the plate element can be compressed here to 5 mm thickness, so that it can be easily pierced to attach mechanical fasteners. These areas also allow cutting of the plate without exposing the absorbent material. The plate can also be folded here.

It is useful according to a further feature of the present invention that the compressed formed areas of the plate member are adapted to receive pipe guides and / or cables. This is a very practical solution that does not affect the acoustic properties.

In order to increase the thermal load even further, according to another feature of Present invention provides that the microperforated outer layer has an aluminum surface.

It is recommended according to a further feature of the present invention that the multifunctional multilayer plate is formed inelastic and self-supporting. This is a structurally very simple solution.

According to a further feature of the present invention, it is provided that the multilayer molding has a thin additional film between the porous absorption layer and the microperforated outer layer. Through this thin film, the plate can be sealed directly behind the micro-perforated outside, so that no liquids such as operating materials such. B. diesel or gasoline can penetrate.

It is useful according to a further feature of the present invention that the microperforated outer layer has a specially embossed, microperforated metal foil. These improve the heat resistance, and further, the acoustic effect of the micro-perforation can be directly adjusted to the acoustic requirements by varying the hole density and the hole diameter according to the previous calculation.

It is advisable according to a further feature of the present invention that the multifunctional multi-layer plate is provided with air guide-forming spacer-holding elements. Because this plate is preferably formed inelastic and self-supporting, so if increased absorption is required, provided by this distance-holding elements additional air ducts. This eliminates the need to produce plates of different thicknesses. In this case, it is advisable, according to a last feature of the present invention with regard to the multifunctional multilayer plate, that the multifunctional multilayer plate be formed in the region of the spacer holding elements for receiving pipe guides and / or cables.

The object underlying the invention is achieved according to the invention in terms of the method for producing the multifunctional multilayer plate, that in the production of such a multifunctional multilayer plate is produced with the features of one of the preceding device claims. With regard to the resulting advantages, to avoid repetition, reference is made to the described advantages of the multifunctional multilayer board according to the invention.

The invention is illustrated in the figures of the drawing in an embodiment. Show it:

1 a schematic, simplified front view of the multifunctional multi-layer plate according to the invention in the single embodiment of the present invention,

2 a schematic, simplified, side view of the multifunctional multi-layer plate according to the invention,

3 a schematic partial sectional view of the porous absorption layer of the multifunctional multi-layer plate according to the invention,

4 a schematic partial sectional view of the porous absorption layer and the additional film thereon of the multi-functional multi-layer plate according to the invention,

5 a schematic partial sectional view of the multifunctional multi-layer plate according to the invention with a porous absorption layer, microperforated outer layer and additional film.

The inventively embodied multi-functional multi-layer plate is generally with 10 designated and is in the 1 the drawing in the single embodiment shown in front view. The multifunctional multilayer board according to the invention 10 has sound absorbing and heat insulating properties for use in acoustically and / or thermally stressed areas, especially in engine compartments of land and sea vehicles, in stationary engine rooms, etc., and consists of a multi-layered, with 11 designated molding whose detailed structure is considered below.

It is now provided according to the invention that the multilayer molding 11 at least from an iw porous absorption layer 12 and a microperforated one. outer layer 13 consists, wherein the multilayer molded body 11 as iw rectangular, into a number of rectangular projections 14 divided plate element is formed. It will do that on the 1 , the 3 and the 5 referred to the drawing, it is doing in the 3 the porous absorption layer 12 the multifunctional multilayer board according to the invention 10 shown in partial sectional view and in the 5 Drawing multifunctional multi-layer board 10 in partial sectional view, inter alia, with a porous absorption layer 12 and microperforated outer layer 13 , This training is the first time with simple means a multi-functional multi-layer plate 10 created by the micro-perforation used with attached behind porous absorber has excellent acoustic properties, which is thermally highly resilient due to their material composition and can be easily kinked or cut by their art relief structure at the wells to achieve an adaptation to the spatial requirements. The rectangular projections 14 In addition, the plate provides an acoustically very efficient surface profile, with a larger surface area than that of a flat plate. In the embodiment shown in the figures of the drawing are the rectangular projections 14 of the plate element iw square. In the illustrated embodiment, concretely, a 850 mm × 1195 mm plate member is used, divided into 24 square, about 200 mm × 200 mm, 25 mm thick projections 14 ,

In the embodiment shown in the figures of the drawing is also, see also the 2 the drawing, the plate element between the rectangular projections 14 formed compressed. Thus, the plate element can be compressed here to 5 mm thickness, so that it can be easily pierced to attach mechanical fasteners. These areas also allow cutting of the plate without exposing the absorbent material. The plate can also be folded here. It is preferably provided that the compressed formed areas of the plate member are formed for receiving pipe guides and / or cables. This is not shown in the figures of the drawing. This is a very practical solution that does not affect the acoustic properties. Furthermore, it can be provided that the microperforated outer layer has an aluminum surface in order to further increase the thermal load capacity. The multifunctional multilayer board 10 is also formed inelastic and self-supporting in the illustrated embodiment.

In the embodiment shown in the figures of the drawing, the multilayer molded body 11 between the porous absorption layer 12 and the microperforated outer layer 13 a thin additional foil 15 on, see the 3 the drawing. In the 4 the drawing is to the porous absorption layer 12 and the additional foil on it 15 without the microperforated outer layer 13 shown. Through this thin additional foil 15 the plate can be sealed directly behind the micro-perforated outside, so that no liquids such as operating materials such. B. diesel or gasoline can penetrate. The additional foil 15 can be z. B. be formed by a PU film.

Furthermore, it is provided in the illustrated embodiment that the microperforated outer layer 13 has a specially embossed, microperforated metal foil. These improve the heat resistance, and further, the acoustic effect of the micro-perforation can be directly adjusted to the acoustic requirements by varying the hole density and the hole diameter according to the previous calculation. This embodiment ensures that the plate is securely sealed, but the acoustic effectiveness is less affected by the thin additional foil 15 , and the surface is protected against damage by the specially embossed, microperforated metal foil.

In contrast, the plate uses a porous absorption layer in the standard embodiment, not shown 12 and the microperforated outer layer 13 This represents some resistance to the passage of liquids, but this is not a complete seal. But in most situations, this is not a problem because it would require the plate to be saturated, which can not be easily achieved. In addition, it has been found that even if the plate z. B. is saturated with diesel fuel, this can not ignite, because the arrangement by the additional film 15 not supplied with air.

Furthermore, it is possible that the multifunctional multilayer plate 10 is provided with air guides forming spacer-holding elements. This embodiment is not shown in the Fig. The drawing. Because this plate is preferably formed inelastic and self-supporting, so if increased absorption is required, provided by this distance-holding elements additional air ducts. This eliminates the need to produce plates of different thicknesses. In this case, the multifunctional multilayer plate 10 be formed in the region of this distance-holding elements for receiving pipe guides and / or cables.

The invention also relates to a method for producing the multifunctional multilayer board 10 , wherein in this production such a multi-functional multi-layer plate 10 is generated with the features of one of the mentioned device claims.

As already mentioned, the illustrated embodiments are for example only implementations of the invention, this is not limited thereto, but rather many modifications and designs are possible. Thus, the multi-functional multi-layer sheet of the present invention 10 have a design differing from the illustrated or described types especially in terms of design.

LIST OF REFERENCE NUMBERS

10

multifunctional multilayer board

11

multilayer molded body (from 10 )

12

porous absorption layer

13

microperforated outer layer

14

rectangular projection (from 11 )

15

Additional foil (between 12 and 13 )

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 2742768 C2 [0002]

Claims (11)

Multifunctional multilayer plate ( 10 ) with sound-absorbing and heat-insulating properties for use in acoustically and / or thermally stressed areas, in particular in engine compartments of land and sea vehicles, in stationary engine rooms, etc., consisting of a multilayer molded body ( 11 ), characterized in that the multilayer molded body ( 11 ) at least from an iw porous absorption layer ( 12 ) and a microperforated outer layer ( 13 ), wherein the multilayer molded body ( 11 ) as iw rectangular, into a number of rectangular projections ( 14 ) divided plate element is formed. Multifunctional multilayer panel according to claim 1, characterized in that the rectangular projections ( 14 ) of the plate element iw are square. Multifunctional multilayer board according to claim 1 or 2, characterized in that the plate element between the rectangular projections ( 14 ) is formed compressed. Multifunctional multi-layer panel according to claim 3, characterized in that the compressed formed areas of the plate member are adapted to receive pipe guides and / or cables. Multifunctional multilayer plate according to one of claims 1 to 4, characterized in that the microperforated outer layer ( 13 ) has an aluminum surface. Multifunctional multilayer plate according to one of claims 1 to 5, characterized in that the multifunctional multilayer plate ( 10 ) is designed inelastic and self-supporting. Multifunctional multilayer plate according to one of claims 1 to 6, characterized in that the multilayer molded body ( 11 ) between the porous absorption layer ( 12 ) and the microperforated outer layer ( 13 ) a thin additional foil ( 15 ) having. Multifunctional multilayer plate according to one of claims 1 to 7, characterized in that the microperforated outer layer ( 13 ) has a specially embossed, microperforated metal foil. Multifunctional multilayer plate according to one of claims 1 to 8, characterized in that the multifunctional multilayer plate ( 10 ) is provided with air guide-forming spacer-holding elements. Multifunctional multilayer panel according to claim 9, characterized in that the multifunctional multilayer panel ( 10 ) is formed in the region of the spacer holding elements for receiving pipe guides and / or cables. Method for producing a multifunctional multilayer board ( 10 ) with sound-absorbing and heat-insulating properties for use in acoustically and / or thermally stressed areas, in particular in engine compartments of land and sea vehicles, in stationary engine rooms, etc., characterized in that such a multi-functional multi-layer board ( 10 ) is generated with the features of one of the preceding device claims.

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