FI122619B - filter silencer - Google Patents

Description

Suodatinäänenvaimennin

The invention relates to a filter silencer on the suction side of an exhaust turbocharger compressor according to the preamble of claim 1.

5 Exhaust turbochargers used to charge combustion engines, in particular large diesel engines, are part of the compressor, discharging the essential sound level of the exhaust turbocharger in the performance of its function. Therefore, it is necessary to reduce this noise level of the compressor suction through effective filter noise suppressors.

10 Such filter silencers are used, for example, on the intake side of a compressor, which compresses the combustion air and feeds it to the combustion engine. This kind of compressor is used by the exhaust turbocharger of the exhaust turbocharger.

But notwithstanding this, the optimum para-15 meters of the compressor must also be achieved for which the pressure loss of the compressor suction must be minimized and the distribution of the suction air at the inlet of the compressor steering wheel must be as advantageous as possible.

However, these requirements must also be taken into account when purchasing an effective silencer, which is usually provided with a filter section 20 and ensures that the intake air is cleaned.

For example, DE 19 514 990 B4 discloses a filter sound absorber having a housing provided with a plurality of damping elements consisting of damping plates and absorption elements, wherein the damping elements each comprise a damping plate and an absorption element, and the damping elements are provided with is oriented parallel to the center axis of the housing 5 lon.

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Another filter voice exchange is known from EP 0 574 605 B1. I went with a number of annular damping elements with permanent

Is- ^ 30 are spaced apart and consist of a plurality of circumferentially spaced | lined damping elements, the filter silencer housing o of which is formed of a molded monoblock having radial flanks, the flanks forming grooves to which the damping elements are radially slidable and thereby secured in the axial direction of the compressor.

However, in this known filter silencer, the number of parts is large and the undesirable pressure drop of the compressor is listed.

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The object of the present invention is to eliminate these drawbacks. Therefore, it is an object of the invention to provide a filter silencer of the kind mentioned above, where the number of parts is relatively clearly reduced, relatively small pressure losses of the compressor intake air are achieved, the velocity field of the intake air 5 is smoothed and a satisfactory reduction of the compressor sound level is achieved.

This object is solved according to the invention by means of the filter muffler according to claim 1.

By means of the filter silencer, the annular damping elements are implemented in the form of at least one outer damping element and at least one internal damping element, the damping elements being arranged coaxially with each other and spaced from each other, the air-15, relative to the axis of the silencer housing, flows through the casing cylinder casing to provide fresh air, at least around the outside damping element, to the compressor, allowing for channel duct geometry through which fresh suction air flows to the compressor, providing low pressure loss and and a rear wall ma-20 material thickness / thickness, an outer casing wall-shaped cylindrical wall, and perforated panels for an outside and internal damping element to provide sufficient stiffness of the filter muffler throughout.

The dependent claims relate to a preferred form of the invention.

The invention will now be explained by means of the schematic representations of an exemplary embodiment of the drawing, in which Figure 1 shows a longitudinal section S1 according to the invention,

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a filter sound absorber with an internal damping element inside the housing as shown in Figure 2, and h-.

Fig. 2 shows a cross-section S2 according to Fig. 1 of the invention longitudinally in the middle plane.

“Figure 1 shows a substantially cylindrical filter muffler n.

^ 20 which is assembled mainly from the front wall 1 and not from the rear wall 2 which can be connected to the compressor disclosed herein, which closes the outer cylinder shell 4 consisting of ^ 35 hole plates.

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In order to attenuate the sound waves from the compressor, a plurality of two annular attenuation elements 5, 6 are provided in the housing in the present embodiment. The annular attenuation elements 5, 6 are implemented in the form of outer 5 and inner attenuation elements 6 which are coaxially spaced and forming a flow passage 21 extending therebetween, coaxially and labyrinthically, connecting the front 1 and rear wall 2 perpendicularly to the axis of the housing 20 to the fresh flow flowing through the casing cylinder shell 4 without introducing fresh air into at least the compressor elements 10.

For this purpose, the inner damping element 6 is mounted perpendicularly to the front wall 1 and the outer damping element 5 is perpendicular to the rear wall 2.

Of course, it is also conceivable that the outer damping element 5 is mounted perpendicularly to the front wall 1 and the inner damping element 6 is perpendicular to the rear wall 2.

In order to increase the stiffness of the filter silencer according to the invention, it is further provided that the front wall 1 and the end side adjacent to the outer damping element 5 are interconnected by means of bridging screws 8 or ribs or other stiffening joints between the flow channel 21.

The damping elements 5, 6 generally consist of a damping member in the form of a perforated plate and of a damping material. For this purpose, the outer 5 and the inner damping element 6 are each made of a shell portion 22, 23 in the shape of a hole, each covering a circular hollow body element 25. The hollow body element, in turn, is filled by the inserted damping agent 24, 25. The perforated surface of the perforated plates 22, 23 is adjusted in the desired relationship with respect to the entire surface of the respective perforated plate 22, 23.

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In addition, the silencer housing has a cylindrical casing covered with an air-permeable, replaceable filter pad 3.

The sucked air thus flows through arrow S (see Fig. 1), through the filter base 3 placed on the periphery of the cylinder jacket g 4 to the interior of the muffler 20 and through the outlet elements 10, 6 of the filter muffler 20 to the compressor.

In other words, the intake air flows radially through the filter base 3 through a flow passage 21 bent through the outer periphery of the hole plate of the cylindrical shell 4 formed coaxially spaced by damping elements 5, 6 and housing front 1 and rear wall 2, thence to the outlet port 10 into which the compressor suction line is hinged.

It is also conceivable to implement an intake air in which the intake air is sucked axially through a front wall 1 consisting of a perforated plate, or through both small surfaces - the front wall 1 and the outer cylinder 4 -.

Due to the relatively large, labyrinthic flow passage 21, good sound attenuation can be achieved because when the pressure peaks of the sound waves occur, the flowing air is compressed into the damping material 24, 25 of the damping elements 5, 6 and suction waves are again suctioned. When designing a flow channel, consideration must be given to adjusting the ratio between channel length 1 and channel width b to the attenuated audio frequency.

For the reasons explained above, it results in the additional advantage that the aperture surface is each adjusted in the desired proportion to the entire surface 15 of the respective aperture plate 22, 23 for the damping elements 5, 6. In this case, it is also conceivable to implement the perforated plates 22 and 23 as a Helmholtz resonator as described, for example, in DE 19 818 873 A1.

The material used for the damping agent 24, 25 may be an open cell foam, such as that mentioned in DE 19 514 990 B4 20, fiber mats or other sound absorbing materials. As mentioned in EP 0 574 605 B1, a combination filter made of plastic, metal fabric, filter paper or various materials may be used for the filter base 3 of the cylinder jacket 4.

In addition, the filter sound attenuator 20 may be provided with accessories. Thus, for example, closures may be provided on the outside of the front wall 1 for positioning the sensors 9 or on the outside of the rear wall 2 for a supply line 7 for cleaning means 5.

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Figure 2 further shows a cross-section through an embodiment of the filter muffler 20 according to the invention in plane S2 to S2 according to Figure 1. Unlike Figure 2, the non-rotational symmetric radius of the muffler is also the structure is conceivable, for example, in rectangular or oval shape.

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Claims (7)

5 A filter muffler (20) on the suction side of an exhaust turbocharger compressor, the filter muffler preferably having a cylindrical muffler housing consisting of a front wall (2) and a rear wall (2) connectable to the compressor, the walls enclosing a plurality annular damping elements (5, 6) arranged in the interior of the silencer housing, characterized in that the annular damping elements (5, 6) are formed in the form of at least one outer damping element (5) and at least one internal damping element (6) at a distance and forming a flow passage (21) extending substantially therebetween and coaxially and labyrinthically, including the front (1) and rear wall (2) for fresh air flowing into the silencer housing 15 so that fresh air directs at least partially around the external damping element (5) in the compressor. Filter silencer according to Claim 1, characterized in that the internal silencer element (6) is mounted perpendicularly! the front wall (1) and the outside damping element (5) are perpendicular! to the rear wall (2). A filter sound attenuator according to claim 1, characterized in that the front wall (1) and the adjacent end wall of the external attenuation element (5) are interconnected by means of bridging connection elements (8) between the flow channel (21) therebetween. A filter sound attenuator according to claim 1, characterized in that the outer attenuation element (5) is mounted perpendicularly to the front wall (1) and the inner attenuation element (6) perpendicular to the rear wall (2). δ A filter muffler according to claim 2, characterized in that the cylinder shell (4) of the muffler housing is covered with an air-permeable, replaceable filter pad (3). ^ 30 A filter sound attenuator according to claim 1, characterized in that the outer attenuation element (5) and the inner attenuation element (6) co each comprise a perforated plate-shaped jacket part covered by a circular hollow body element, the hollow body element being filled with inserted damping elements. 24, 25) and the aperture surface is adjusted in the desired relationship to the entire surface of the respective aperture plate (22, 23). 6 Filter filter attenuator according to Claim 6, characterized in that the perforated plate 22 and the perforated plate 23 are implemented as a Helmholtz resonator. δ (M i σ> o i r- · (M X en CL CO h- · δ h- · o o (M 7