DE102010022780B4 - Broadband silencer - Google Patents

Abstract

Broadband damper with an at least two-part housing into which a gas-carrying pipe (4) is inserted, the wall of which has acoustic openings (7, 8), the pipe (4) being encompassed by a damping chamber (5) which is connected via the acoustic openings (7, 8) communicates with the inside of the tube, characterized in that the housing consists of two axially divided housing shells (2, 3) and at least part (4a) of the tube (4) together with at least part (5a) of the damping chamber (5) in one piece is formed with a housing shell (2), wherein the acoustic openings (8) in this part of the tube (4) can only be removed from the mold along the same axis, in such a way that molds used in the acoustic openings (8) can all be removed along the same axis , with an insert (6) to be provided as a further pipe component, which is also provided with acoustic openings (7), the insert being encompassed by the second housing shell (3), where a further section of the damping chamber (5) is formed between the insert (6) and the outer wall of the second housing shell (3), there being two damping chamber sections (5a, 5b), of which the first section (5a) radially adjoins the outside of the tubular part (4a) formed in one piece with the first housing shell (2) connects and the second section (5b) connects radially to the insert part (6).

Description

Technical area

The invention relates to a broadband damper, in particular in the intake of an internal combustion engine, according to the preamble of claim 1.

State of the art

From the FR 2 864 168 B1 there is shown a two-piece silencer comprising a housing split along the air duct with laterally disposed chambers, wherein acoustically effective openings from the air duct to the chambers are formed one half each through the housing halves. The EP 1 403 506 A2 shows a muffler with sub-segments on the circumference of an air line, which are closed by a corresponding resonator housing cover to a resonator.

The WO 03/027480 A1 . JP 60-169621 A . US 2009/0242323 A1 and DE 100 26 355 A1 show silencer along an air duct, in which openings are provided along the air line, which connect the volume of air in the air line arranged at the periphery of the air line resonator chambers.

The EP 1 795 733 A1 D8 shows a device for soundproofing, comprising a pipe section with openings to expansion chambers, which are closed with a lid.

From the EP 1 176 355 A2 a broadband damper for the intake of an internal combustion engine is known, which has an air-conducting inner tube within a surrounding outer tube for noise damping, wherein between the outer surface of the inner tube and the encompassing outer tube a partitioned into individual chambers damping space is formed, the acoustic openings in the wall of the umgestenen tube communicates with the pipe interior. The damping chambers are separated from each other in the circumferential direction via partition walls. The noise reduction depends on the number of acoustic openings in the wall of the inner tube and on the volume of the surrounding damping chamber. The noise damping is caused by resonance vibrations in the damping chamber.

The broadband damper is made of plastic and is produced by injection molding. The broadband damper is composed of two housing parts which are radially separated in the axial transverse direction. For introducing the acoustic openings in the wall of the inner tube usually molds are used, which are removed after completion of the injection molding process. In the in the EP 1 176 355 A2 described broadband damper molding tools must be inserted or removed in the axial direction over the open end, so that only groove-shaped acoustic openings that extend over a defined axial length of the broadband damper, can be made. However, this shape of the openings limits the spectrum of frequencies that can be reduced via the broadband attenuator.

The invention has the object of providing a broadband attenuator with simple measures in such a way that noise over a wide frequency spectrum can be effectively reduced.

Disclosure of the invention

This object is achieved with the features of claim 1. The dependent claims indicate expedient developments.

The wide-band damper according to the invention is preferably used in the intake region of internal combustion engines, in order to reduce the flow noise arising during the inflow of the combustion air. In principle, however, is also an application of the broadband damper generally to components or units into consideration, in which a gas flow is performed.

The broadband damper has an at least two-part housing with two axially divided housing shells, wherein at least part of a gas-carrying tube and at least part of a damping chamber surrounding the tube are formed integrally with a housing shell. In the wall of the tube acoustic openings are introduced, through which communicates the tube interior with the damping chamber.

The acoustic openings, which are introduced into the part of the tube, which is formed integrally with a portion of the damping chamber integral with a housing shell, are demoulded only along the same axis or parallel axes, so that during the manufacturing process in the acoustic openings molds all along the same axis or parallel axes can be removed from the acoustic openings. This embodiment has significant advantages in terms of the number and size of the acoustic openings in the wall of the tube, in particular in a production of the housing by way of plastic injection molding. Due to the axial division of the housing shells, the acoustic openings in the part of the tube formed integrally with a housing shell can preferably all be aligned in the radial direction, so that the Forming tools can be used accordingly in the radial direction or removed again. This allows for a simplified production of the housing shells by means of plastic injection molding, on the other hand, a plurality of acoustic openings can be introduced into the wall of the tube. Since the area of the acoustic openings determines the frequencies to be damped and a larger area is accompanied by a damping of higher frequencies, frequencies in a wide frequency range can be effectively damped or reduced in this way.

In principle, a plurality of acoustic openings can be introduced into the wall of the pipe, all of which have the same axis orientation, in particular in the radial direction. The insertion and removal of the molds is preferably carried out in the same axial direction, wherein a removal in opposite axial directions, but along the same axis is considered. This opens up the possibility of introducing acoustic openings into the pipe wall from different sides.

The gas-carrying tube is either, according to a first advantageous embodiment, formed over a defined axial portion in one piece with one of the housing shells or, according to another advantageous embodiment, at least two parts, wherein at least the integrally formed with the housing shell part of the tube has acoustic openings , These acoustic openings may take the form of oblong holes, which are optionally designed to be open on one side, so that only when assembling either with the second housing shell or with another pipe component is an enclosed acoustic opening all around.

In the case of the multi-part design of the tube according to the invention an insert is provided as a further pipe component, which is also provided with acoustic openings. This insert can basically be made of a different material than the one piece with the housing shell executed pipe part, in particular of metal. The insert is inventively embraced by the second housing shell, wherein between the insert and the outer wall of the second housing shell, a further portion of the damping chamber is formed. There are thus two damping chamber sections, of which the first section adjoins radially on the outside of the tube part formed integrally with the first housing shell, and the second section adjoins the insert radially. The damping chambers may be formed continuously or divided by partition walls into individual sections.

According to a further expedient embodiment, it is provided that the acoustic openings extend only over a limited circumferential angle of the tube. This applies expediently both for the one-piece and for the multi-part design of the tube according to the invention. For example, it may be sufficient to provide the acoustic openings over an angular range of about 180 °, which has the advantage that the molds can all be removed in the same direction from the pipe section. In principle, however, it is also possible to introduce acoustic openings into the pipe wall over an entire angular extent over an angular range greater than 180 °, in which case the molds can be removed on opposite pipe halves in opposite directions of the acoustic opening axes.

The second housing shell expediently forms a cover and at the same time limits at least a portion of the damping chamber. This embodiment of the second housing shell is preferably both in the one-piece and the multi-part embodiment of the gas-carrying pipe according to the invention into consideration. To connect the first and second housing shell, these are preferably welded together, for example by friction welding or ultrasonic welding.

The housing shells are preferably made of plastic, which allows production by injection molding.

In addition to the already mentioned simple production and the noise attenuation over a wide frequency range, the broadband damper according to the invention has the further advantage of a relatively compact design. Since the acoustic openings extend over a relatively large angular range in the circumferential direction and / or in the axial direction of the tube, a relatively large tube surface can be provided with the acoustic openings. At the same time, the damping chamber surrounds both in the one-part and the multi-part design of the tube, those pipe sections which are provided with the acoustic openings, which leads to both an attenuation of higher frequencies and an improved Dämpfungsmaß.

Description of the drawings

Further advantages and expedient embodiments can be taken from the further claims, the description of the figures and the drawings. Show it:

1 a perspective view of a broadband damper, consisting of a two-part plastic housing with a housing upper shell and a housing lower shell, one piece with the housing lower shell a half tube of a gas-carrying tube is formed,

2 the broadband damper according to 1 in another perspective view,

3 a further embodiment of a broadband damper with a one-piece gas-carrying tube, which is part of a housing shell of the broadband damper.

In the figures, the same components are provided with the same reference numerals.

Embodiment (s) of the invention

The in the 1 and 2 illustrated broadband damper 1 is used in the intake of an internal combustion engine and has a two-part housing with a lower housing shell 2 and an upper shell 3 on. The two housing shells 2 . 3 form an air-conducting pipe 4 , consisting of two axially split tube halves 4a and 4b , each in one piece with the housing shells 2 respectively. 3 are formed. Intake noise through the pipe 4 passed combustion air for the internal combustion engine are reduced in the broadband damper.

In the area of a curved section is the housing of the broadband damper 1 with a pipe 4 encompassing damping chamber 5 provided, which is also constructed in two parts and a first damping chamber section 5a and another damping chamber section 5b comprising, wherein the two damper chamber sections 5a and 5b in one piece with the lower or upper housing shell 2 respectively. 3 are formed.

Over a limited axial section and in the circumferential direction over about 180 ° has the tube 4 as a wall running as a separate component insert 6 which has a plurality of acoustic openings 7 is provided. About the acoustic openings 7 in the insert 6 is a communication connection between the pipe interior and the encompassing damping chamber section 5b in the upper housing shell 3 given. The insert 6 is on the lower half of the tube 4 in the lower housing shell 2 placed on and thus forms the upper tube wall of the tube 4 , which in the assembled state of the upper housing shell 3 with the upper damping chamber section formed therein 5b is overrun. The insert 6 is preferably made of metal, for example stainless steel.

In the pipe wall of the lower half of the pipe 4a in the lower housing shell 2 are more acoustic openings 8th introduced, via which the tube interior with the lower damping chamber section 5a communicates, which is integral with the lower housing shell 2 is formed and the lower half tube 4a embraces. The acoustic openings 8th are designed as slots, which are to the upper edge of the lower housing shell 2 are formed open towards. Such acoustic openings 8th are located on diametrically opposite wall sections of the lower half of the pipe 4a ,

Due to the upwardly open design of the acoustic openings 8th It is possible to use in the manufacture of plastic housing by injection molding molding tools, which the acoustic openings 8th form, and after completion of the injection molding process, the molds to remove all in the same direction, namely upwards, ie radially relative to the longitudinal axis of the tube 4 , The removal thus takes place via the open side of the lower housing shell 2 ,

In the assembled state, the lower housing shell and the upper housing shell 3 firmly connected to each other, in particular welded together, for example by means of friction welding or ultrasonic welding.

It may be appropriate that the lower damping chamber section 5a , which with the lower housing shell 2 is formed in one piece, only adjacent to the running as slots acoustic openings 8th in the lower half of the pipe 4a extends. In this embodiment, the lower damping chamber section encloses 5a the wall of the lower half of the pipe 4a not completely, but rather extends only with radial distance to the acoustic openings 8th , However, it is also possible, the lower damping chamber section 5a in the circumferential direction, the entire lower half of the tube 4a enclose so that the lower damper chamber section 5 extends over an angular range of 180 °.

In the embodiment, the upper damping chamber section 5b on the upper housing shell 3 designed so that the insert 6 completely enclosed in the circumferential direction; the upper damping chamber section 5b thus encompasses an angular section of approximately 180 °. In the mounted, assembled state are the end edges of the walls of the damping chamber sections 5a and 5b on top of each other, leaving a continuous space in the damping chamber 5 between the two damper chamber sections 5a and 5b is formed.

In 3 is another embodiment of a broadband damper 1 represented, which also consists of plastic and is produced by injection molding. The broadband damper 1 has a lower housing shell 2 and an upper shell 3 which are assembled and commonly connected by welding. One-piece with the lower housing shell 2 is the air-carrying pipe 4 formed, which, however, in contrast to the first embodiment does not consist of two tube halves, but is performed circumferentially closed. In the wall of the pipe 4 are a variety of acoustic openings 8th introduced, all of which are demouldable for manufacturing reasons along the same axis, and that radially to the longitudinal axis of the tube. Thus, dies that are in the mold during the manufacturing process can all be taken out in the same direction. Accordingly, the side acoustic openings 8th Elongated hole shape, whereas in the upper, the upper housing shell 3 facing acoustic openings 8th rather have a round or elliptical cross-section. The lower, the upper housing shell 3 remote part of the pipe 4 has no acoustic openings. Overall, the acoustic openings extend 8th in the circumferential direction over an angular range of approximately 180 °.

The damping chamber 5 points in the lower housing shell 2 a lower damping chamber section 5a and in the upper housing shell 3 an upper damping chamber section 5b on, wherein the damping chamber sections 5a and 5b in such a way that a continuous space is formed, which the pipe 4 in the area of the acoustic openings 8th encloses.

Claims (8)

Broadband damper with at least a two-part housing into which a gas-carrying tube ( 4 ), the wall of which is provided with acoustic openings ( 7 . 8th ), wherein the tube ( 4 ) from a damping chamber ( 5 ), which is accessible via the acoustic openings ( 7 . 8th ) communicates with the pipe interior, characterized in that the housing consists of two axially split housing shells ( 2 . 3 ) and at least one part ( 4a ) of the pipe ( 4 ) together with at least one part ( 5a ) of the damping chamber ( 5 ) in one piece with a housing shell ( 2 ) is formed, wherein the acoustic openings ( 8th ) in this part of the tube ( 4 ) are demoulded exclusively along the same axis, such that in the acoustic openings ( 8th ) can be found all along the same axis, wherein as an additional pipe component an insert ( 6 ), which also has acoustic openings ( 7 ), wherein the insert part of the second housing shell ( 3 ), wherein between the insert part ( 6 ) and the outer wall of the second housing shell ( 3 ) another section of the damping chamber ( 5 ), wherein there are two damper chamber sections ( 5a . 5b ), of which the first section ( 5a ) radially to the outside of the one-piece with the first housing shell ( 2 ) formed pipe part ( 4a ) and the second section ( 5b ) radially to the insert ( 6 ). Broadband damper according to claim 1, characterized in that the entire tube ( 4 ) at least over part of its axial length in one piece with a housing shell ( 2 ) is trained. Broadband damper according to claim 1, characterized in that the tube ( 4 ) is constructed at least in two parts, wherein at least the one-piece with the housing shell ( 2 ) trained part ( 4a ) of the pipe ( 4 ) Acoustic openings ( 8th ) having. Broadband damper according to claim 3, characterized in that the insert part ( 6 ) to the pipe part ( 4a ), which is integral with the housing shell ( 2 ) is trained. Broadband damper according to claim 4, characterized in that the insert ( 6 ) consists of metal or plastic. Broadband damper according to one of claims 1 to 5, characterized in that the acoustic openings ( 7 . 8th ) only over a limited circumferential angle of the tube ( 4 ). Broadband damper according to one of claims 1 to 6, characterized in that the first and the second housing shell ( 2 . 3 ) are welded together. Broadband damper according to one of claims 1 to 7, characterized in that the housing shells ( 2 . 3 ) are made of plastic.

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