DE3536379C2 - - Google Patents

Description

The invention relates to a combination of several molded parts set air duct, which is made of sound-absorbing polyurethane There is foam.

Air ducts of this type are found predominantly in motor vehicles Application.

From DE-AS 10 95 504 a silencer device is known where a sound absorbing material in the form of glass or Stone wool is surrounded on the outside by a sheet metal support and a thin one on the inside as a replacement for a perforated plate Has sound absorption layer that is so dense that an immediate bare touch of the flowing air with that behind the sound absorption layer-arranged sound-absorbing material prevents who that should, so that stone or glass wool particles do not get in the breath can get air. To support this internal sound Swallowing layer perforated sheet metal sections are provided that cross walls are attached in the outer sheet metal jacket. Building one of the like facility is relatively expensive and also has due to the dense inner layer only a relatively low sound degree of damping.

Furthermore, from DE-PS 32 20 022 a silencer device for air-flow channels known in air conditioning systems, in which over a longitudinal section of the channel a sound absorbing foam an air-permeable skin on its inside has, which is integrally fused to the foam and wherein a sound-neutral support is arranged on the outside. Such a facility is also multi-layered Construction only complex to manufacture.  

From DE-OS 28 19 657 a silencer made of foam be knows, in which on inner or outer supporting walls made of metal or plastic is dispensed with. To the required strength and to achieve good sound absorption are very strong walls required. These silencing elements are short, insert-like pieces, which are inserted into a housing and are largely protected. As more or less are freely routable air duct channels of larger longitudinal expansion these silencing elements are not suitable.

The present invention is therefore based on the object Air duct to be designed so that it both improved sound has damping properties as well as by a simple Auf construction is more economical to manufacture and use.

This object is achieved in that the air duct at least longitudinally exclusively self-supporting from sound-absorbing elastic materials, namely from polyurethane foam with a bulk density of 20 to 400 kg / m ³ or flake composite foam with a bulk density of 100 to 400 kg / m ³ exists.

Optimal sound attenuation is ensured by the longest possible Air duct, made exclusively of sound absorbing material, d. H. achieved without a separate external or internal carrier, which also results in a very simple structure. The shape Parts, for example in the form of half shells, can be made from blocks Cut out foam, foam in the mold or Cut out of flake composite foam, then deform it or emboss or also produce using the molded foam process.  

The selection of the foam to be used depends on the particular one given spatial conditions in the motor vehicle, the necessary self-supporting properties of the material and mainly on outgoing frequency range of the sound source to be damped and is easily determined by a few preliminary tests. Elastic flakes composite foams based on polyurethane foams themselves especially for the purpose mentioned because they - especially at their manufacture as molded parts - through different strengths seal and different wall thicknesses in different areas of the air duct, influencing the flow resistance and thus allow the control of the sound absorption properties.

The sound absorbing material expediently consists of an air-permeable material with a thickness of 2 to 30 mm, especially 4 to 15 mm.

In a particularly advantageous manner, the elastic polyurethane Foam a compression hardness at 40% deformation from 3 to 200 kPa, preferably 10 to 150 kPa. The determination of the compression hardness takes place according to DIN 35 577.

The bulk density of the polyurethane foam is preferably 50 to 250 kg / m ³ .

With flake composite foam, a bulk density of 120 to 250 kg / m ^{3 is} preferred.

The sound-absorbing material preferably has different shapes different areas of the air duct and / or different flow resistances.

In the drawing, the new air duct is in two versions examples shown purely schematically and below he purifies. It shows  

Fig. 1 shows a longitudinal section through the air duct and the first embodiment and a cross-section through the air duct,

Fig. 2 shows a longitudinal section through the air duct according to the second embodiment.

In Fig. 2, the channel 5 also consists of two half-shells 6 and 7 , which have a smooth inner contour 8 , but on the outer surface between sections 9 with full diameter indentations 10 with a reduced outer diameter, these areas 11 being created by embossing and thus have a higher density than the regions 12 with the larger outer diameter 9 . The air duct 5 thus has different air permeability and thus different flow resistance, as a result of which sound waves of different frequencies can be damped to the same extent.

In a test structure simulating a motor vehicle use, an air duct made of composite foam with a density of 200 kg / m ³ and an inner diameter of 100 mm, a wall thickness of 10 mm and a length of 500 mm was in a frequency range from 200 to 500 Hz measured a reduction of the sound level of 5 to 30 dB.

Through the described design of at least one part of the air duct from essentially inherently stable sound absorbing material results in a good Sound attenuation in a wide frequency range by  Avoidance of vibration transmissions additionally ver is strengthened. In addition, the use of elasti shear materials installation advantages, since any existing measuring deviations can be compensated for without problems. The main advantage, however, is that the ge called material selection a simple structure in form of a strapless part that is possible as a whole is acoustically effective and that the work to be used a simple, application-related coordination of Porosity, flow resistance and inherent stability made possible lichen. Furthermore, through the appropriate design not just the interior of the air duct, but the surrounding outside space is also used for sound absorption, because both the inner and outer surface of the appropriately trained air duct to the scarf absorption are fully available.

Overall, there is an air duct, the egg is gene stable and no external support, which in general mean harmful sound reflection, needed and therefore full sound over its entire length has a dampening effect.

Claims (8)

1. composed of several molded parts air duct, which consists of sound-absorbing polyurethane foam, characterized in that the air duct ( 1 ) at least in sections only self-supporting from sound-absorbing elastic materials, namely from polyurethane foam with a bulk density of 20 to 400 kg / m ³ or flake composite foam with a bulk density of 100 to 400 kg / m ³ . 2. Air duct according to claim 1, characterized in that the sound-absorbing material from air-permeable work fabrics with a thickness of 2 to 30 mm, especially 4 to 15 mm. 3. Air duct according to claim 1 or 2, characterized in that the elastic polyurethane foam has a compression hardness 40% deformation from 3 to 200 kPa. 4. Air duct according to claim 3, characterized in that the compression hardness is 10 to 150 kPa. 5. Air duct according to one of claims 1 to 4, characterized in that the polyurethane foam has a bulk density of 50 to 250 kg / m ³ . 6. Air duct according to one of claims 1 to 4, characterized in that the flake composite foam has a raw density of 120 to 250 kg / m ³ . 7. Air duct according to one of claims 1 to 6, characterized in that the sound-absorbing material in different areas of the air duct ( 1 ) has different densities. 8. Air duct according to one of claims 1 to 7, characterized in that the sound absorbing material in different areas of the air duct duct ( 1 ) has different flow resistances.