DE2711190C3 - Silencers for flowing gases, in particular exhaust gases from vehicle internal combustion engines - Google Patents

Description

The application relates to a silencer according to the preamble of claim 1, which the DE-GM 12 403 is the basis. Such a known muffler usually meets the requirements With regard to good sound absorption, low flow resistance, i.e. low engine back pressure, simple Manufacture and easy installation. For higher demands, however, the bandwidth is the more damped, .Sound frequencies too low with the known silencer.

It is therefore an object of the invention to extend this bandwidth without the aforementioned to impair other properties of the silencer.

This task is done with the distinctive.! Features of claim 1 in an advanced manner solved. Because without an extension or at least without a significant extension of the Schalldämpfirgehiiii so if the cigen'J; ctu-n Aiistrittskammer an additional resonance sirek Ke umt a Strunikammcr, ring-shaped connecting channel and a / wide blind chimney won. By DE-GM 17 75 077 are cladding tubes as a means of forming a main flow connecting channel known. However, there is not an additional Reso-

j nance section with a power chamber and a second Blind chamber formed.

According to the invention, the transfer or connecting channel is advantageously in the two Resonance paths of different lengths, whereby a

iü large bandwidth of attenuated sound frequencies is achieved. This effect is made possible by the im Claim 2 cited feature that the connecting the first blind chamber with the inlet chamber Transfer pipe only in the area between the transverse wall forming the first blind chamber and the downstream wall the following additional transverse wall is perforated, even more reinforced; the direct gas flow from the inner transfer tube radially outwards over the cladding tube into the outlet chamber is prevented and the Forced flow through the second resonance path; eventually the impingement flow in the two Blind chambers intensified These effects are supported by the feature of claim 3. By the measure specified in claim 4 are in

:> structurally quite simple way additionally one resp. formed several blind chambers connected only laterally, which expand the sound-absorbing effect. the The drawing shows an exemplary embodiment for internal combustion engines with two exhaust pipes. Through the

ίο shown training will be a largely used connecting, complex and failure-prone Y-pipe superfluous; aside from that the installation conditions are improved. Furthermore, a very simple holder is used for the gas inlet pipes

) ί shown showing the gas flow in the direction of the Deflects perforation.

The invention will be explained in more detail with reference to the drawing; thereby shows

Fig. 1 shows the silencer according to the invention in

4i> longitudinal section,

F i g. 2 in a cross section according to line .4-ß and F i g. 3 in a cross section along the line CD in Fig.l.
The silencer according to the invention has in

4Ί illustrated embodiment according to the F i g. I and 2 have a tubular housing 1, closed at the end faces, with two inlet tubes 2a and 2b and an outlet nozzle 3. The inlet pipes are arranged in a transverse plane of the housing at an angle of 90 ° to each other and abut with a 45 ° miter with the interposition of a sheet metal piece 4, which is attached on one side to the inner wall of the inlet chamber 5 at one end of the housing is.

At the other end of the housing there is a blind chamber 6 which is connected to the inlet chamber via a transfer tube 7 coaxial around the housing. a perforation 8 located outside the outlet connection area. The exit chamber 9 is divided up in front of and behind the area of the exit section by an additional transverse wall 10a and 106, respectively. The additional transverse walls extend radially inwardly to iu a perforated jacket tube 11 which comprises the Bindka'iimcr 6 oer f -. 'Intrittskammer 5 connecting ι, 1
koa>.:, ii with spacing on all sides umriniii ίγ I
axiüi ' ^1. ,'. \ bsiand /.u den die ritar: i> « <: · ■■■ '. ■
QIn-Jf. .51 * ι :: "·« .- r nacn inside /.u Ik-lt ·. · '··. " ¹ · ι.

12 or 13 extends towards In this way, a second resonance path with a flow chamber 14, Connection channel 15 and a second blind chamber with Aufprailströmung 16 is formed in Fig.3 shown that the outlet nozzle 3 facing peripheral region of the cladding tube 11 of perforation is kept free

From Fig. 1 also shows that outside the Perforation area of the covered transfer pipe 7 a further radially inward to the perforated Cladding tube 11 reaching additional transverse wall 17 is provided; as a result, another blind chamber 18, which is only connected to the side and is not flowed through, is formed. The mode of action of the panel according to the invention

damper is the following:

The exhaust gases pass through the two inlet pipes 2a and 20 via their perforations into the inlet chamber 5, where they expand and mix. They then flow through the transfer pipe 7 to the blind chamber 6, where they suffer an impact flow, and enter the resonance flow chamber 14 through the perforation 8 and from there via the cladding tube 11 to the second blind chamber 16, where they suffer a renewed impact flow. The gas flow is connected to the further annular blind chamber 18 through the perforation 19a in the cladding tube 11. The exhaust gases finally pass through the perforation 9b in the cladding tube 11 via the outlet chamber 9 to the outlet nozzle 3.

1 sheet of drawings

Claims (4)

Patent claims: 1. Silencer for flowing gases, with a tubular! Housing, which by means of a division by transverse walls at one end contains an entry chamber with at least one protruding entry tube, perforated in its end area, closed at the end, at the other end a blind chamber and between these chambers an exit chamber with an outlet nozzle and in which the entry chamber with the blind chamber over a connecting pipe penetrating the outlet chamber, perforated in a partial area and open at both ends, characterized in that the outlet chamber is divided off in front of and behind the area of the outlet nozzle (3) by an additional transverse wall (10a, 10b) which radially inward as far as a perforated cladding tube (II) which surrounds the transfer tube (7) with a spacing on all sides and leaves a clearance to the transverse walls (12, 13) so that a further resonance nodule with a flow chamber (6) adjacent to the blind chamber (6) 14), annular connecting channel (15) and second blind chamber (16) is formed. 2. Silencer according to claim 1, characterized in that the transfer pipe (7) is coaxial to the housing (1) and only in the area between the first blind chamber (6) forming Transverse wall (13) and the downstream additional transverse wall (lOtydie has perforation. 3. Silencer according to claim 1 or 2, characterized in that the outlet nozzle (3) facing circumferential area -H-ss cladding tube (11) of the perforation is kept free. 4. Silencer according to one of the previous claims, characterized by at least one further extending radially inward to the cladding tube (11) Additional transverse wall (17) outside the perforation area of the transfer pipe (7), so that at least one further, only laterally connected blind chamber (18) is formed.