EP1939416B1

EP1939416B1 - Variable geometry muffler fo an exhaust system of an internal combustion engine

Info

Publication number: EP1939416B1
Application number: EP06425877A
Authority: EP
Inventors: Alessandro Scotti; Antonino Fiumano'; Matteo Sbarile
Original assignee: Magneti Marelli SpA
Current assignee: Marelli Europe SpA
Priority date: 2006-12-29
Filing date: 2006-12-29
Publication date: 2009-08-19
Anticipated expiration: 2026-12-29
Also published as: US20080156578A1; CN101210508A; DE602006008646D1; US20090229911A1; BRPI0705651A; EP1939416A1

Description

TECHNICAL FIELD

The present invention relates to a variable geometry muffler for an exhaust system of an internal combustion engine.

BACKGROUND ART

An internal combustion engine is provided with an exhaust system, which has the function of introducing into the atmosphere the gases produced by the combustion limiting both the noise and the content of polluting substances. A modern exhaust system comprises at least one muffler comprising a tubular body, which typically displays an elliptical section and is provided with an inlet opening and an outlet opening. A labyrinth which determines a path for the exhaust gases from the inlet opening to the outlet opening is defined within the tubular body; such labyrinth is normally formed by diaphragms (or baffles) arranged transversally (i.e. perpendicularly to the longitudinal axis of the tubular body) to define chambers within the tubular body and by tubes which connect the chambers to each other.
In a traditional muffler, the counterpressure generated by the muffler (i.e. the loss of pressure determined in the exhaust gases by the passage through the muffler) grows exponentially according as the engine speed increases (i.e. as the average speed of the exhaust gases increases). Consequently, in order to avoid excessively high counterpressure values at high engine speeds, it is necessary to penalise noise attenuation at low engine speeds. However, it would be preferable if the counterpressure generated by the muffler were more constant at varying engine speeds so as obtain both a good noise attenuation at low engine speeds and a limited counterpressure at high engine speeds.
In order to have a more constant counterpressure generated by the muffler at the variation of the engine speed, it has been suggested the use of at least one bypass valve, which is controlled by pressure (i.e. is passive being without a motor member) and has the function of modifying the geometry of the muffler labyrinth according to the exhaust gas pressure (i.e. according to the engine speed). An example of a bypass valve is provided in patent application WO2005059327A1 .
A known bypass valve displays a lid, which is coupled to a bypass opening obtained through a diaphragm of the muffler and is mobile from a closed position of the bypass opening to an opening position of the bypass opening by effect of the exhaust gas pressure and against the bias of a spring which tends to maintain the lid in the closed position. The most common solution provides that the lid is hinged onto the diaphragm of the muffler and is coupled to a torsional spring.
It has been observed that the known bypass valves display a limited reliability in time, because the sliding couplings of the known bypass valves (i.e. the hinging points of the lid and the turns of the spring) tend to get jammed or however to work in a different manner from that provided in the design step by effect of the incrustations formed by the exhaust gases.
EP1408206A1 discloses a valve device for a silence; the valve device opens a bypass passage provided in the silencer to flow exhaust gas through the bypass passage when exhaust gas pressure rises to a certain pressure. The valve device includes a base having a valve opening through which exhaust gas flows, and a plate-like valve for opening and closing the valve opening; the plate-like valve is fixed to the base at its proximal portion, and is bent at both edges thereof in a certain range extending from its distal end toward the proximal portion.

DISCLOSURE OF INVENTION

It is the object of the present invention to provide a variable geometry muffler for an exhaust system of an internal combustion engine, which muffler is free from the above-described drawbacks, and specifically is easy and cost-effective to manufacture.
According to the present invention, a variable geometry muffler for an exhaust system of an internal combustion engine is provided according to that claimed in the accompanying claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will now be described with reference to the accompanying drawings, which illustrate some non-limitative examples of embodiment thereof, in which:

figure 1 is a schematic and perspective view of a muffler made according to the present invention;
figure 2 is a schematic view of an internal labyrinth of the muffler in figure 1;
figure 3 is a side section view of a bypass valve of the muffler in figure 1;
figure 4 is a schematic and perspective view of a different embodiment of the bypass valve in figure 3;
figure 5 is a schematic and perspective view of a further embodiment of the bypass valve in figure 3;
figure 6 is a side elevated view of the bypass valve in figure 5;
figure 7 is a perspective exploded view of the bypass valve in figure 5;
figure 8 is a schematic and perspective view of a further embodiment of the bypass valve in figure 3;
figure 9 is a side section view of the bypass valve in figure 8;
figure 10 is a plan view of an annular accommodation seat of a wire-mesh ring;
figure 11 is a section view taken along line XI-XI of a detail in figure 10; and
figure 12 is a section view take along line XII-XII of a detail in figure 10.

PREFERRED EMBODIMENTS OF THE INVENTION

In figure 1, numeral 1 indicates as a whole a muffler 1 for an exhaust system of an internal combustion engine (not shown). Muffler 1 comprises a tubular body 2, which displays an elliptical section and is provided with an inlet opening 3, through which the exhaust gases produced by the internal combustion engine enter tubular body 2, and an outlet opening 4, through which the exhaust gases exit from tubular body 2.
As shown in figure 2, a labyrinth 5 which determines a path for the exhaust gases from inlet opening 3 to outlet opening 4 is defined inside tubular body 2. Labyrinth 5 consists of diaphragms 6 (or baffles) arranged transversally (i.e. perpendicularly to a longitudinal axis 7 of tubular body 2) to define chambers 8 within tubular body 2 and of tubes 9 which connect chambers 8 to each other.
A bypass valve 10, which is adapted to modify the geometry of labyrinth 5 according to the pressure of the exhaust gases is arranged within tubular body 2; specifically, in the embodiment shown in figure 2, bypass valve 10 is coupled to a diaphragm 6 and according to the exhaust gas pressure is adapted to put two chambers 8 which are, normally, reciprocally isolated by diaphragm 6 itself into direct communication.
As shown in figure 3, bypass valve 10 comprises a lid 11, which is coupled to a bypass opening 12 and is mobile from a closed position (shown by a solid line in figure 3) of bypass opening 12 to an opening position (shown by a dotted line in figure 3) of bypass opening 12 by effect of the exhaust gas pressure and against the bias of an elastic body which tends to maintain lid 11 in the closed position.
The elastic body consists of an elastic foil 13, which is folded as a "U" and displays a mobile end 14 coupled to lid 11 and a fixed end 15 which is opposite to mobile end 14 and integral with a fixed part of muffler 1 (specifically with diaphragm 6 in which bypass valve 10 is mounted).
According to the embodiment shown in figures 2, 3, 4, 8 and 9, mobile end 14 of elastic foil 13 supports lid 11. According to the embodiment shown in figures 2 and 3, lid 11 consists of an extension of mobile end 14 of elastic foil 13 and forms a monolithic body with elastic foil 13 itself; instead, according to the embodiments shown in figures 4, 8 and 9, mobile end 14 of elastic foil 13 is connected to lid 11 by means of rivets, fitting and/or welding. According to a different embodiment (not shown), mobile end 14 of elastic foil 13 supports lid 11 by means of the interposition of a connecting element, which is fixed both to mobile end 14 and to lid 11.
According to the embodiment shown in figures 2 and 3, fixed end 15 of elastic foil 13 is arranged by the side of bypass opening 12 and is directly fixed (typically screwed, riveted or welded) to diaphragm 6 in which bypass valve 10 is mounted.
According to the embodiments shown in figures 4-9, fixed end 15 of elastic foil 13 is arranged by the side of bypass opening 12 and is fixed to a support 16 (typically screwed, riveted or welded) to diaphragm 6 in which bypass valve 10 is mounted. According to the embodiment shown in figures 8 and 9, support 16 displays a flat plate, which is arranged over bypass opening 12 and displays a through hole 17 obtained at bypass opening 12 itself. According to the embodiments shown in figures 4-7, support 16 is shaped as an inverted "U".
According to the embodiment shown in figures 5-7, lid 11 is hinged to support 16, which is fixed (typically screwed, riveted or welded) to diaphragm 6 in which bypass valve 10 is mounted; in this manner, lid 11 is rotationally mounted to turn about an axis of rotation between the closed position and the opening position. In this embodiment, mobile end 14 of elastic foil 13 rests on lid 11, while fixed end 15 of elastic foil 13 is coupled to (i.e. received by) support 16. Preferably, lid 11 is hinged to support 6 by means of a hinge pin 18, which is integral with support 16 (i.e. lid 11 turns with respect to pin 18); furthermore, elastic foil 13 partially envelops pin 18.
According to a preferred embodiment, bypass valve 10 comprises a wire-mesh ring 19, which is arranged about bypass opening 12 to define an abutting element against which lid 11 rests in the closed position. According to the embodiment shown in figures 2 and 3, bypass opening 12 is obtained through diaphragm 6, which displays an annular accommodation seat 20 of wire-mesh ring 19. According to the embodiment shown in figures 8 and 9, support 16 displays annular accommodation seat 20 of wire-mesh ring 19.
In the embodiment shown in figures 2 and 3, wire-mesh ring 19 displays a rectangular section and accommodation seat 20 consists of a "U"-shaped fold of diaphragm 6 squashed to clamp a lower portion of wire-mesh ring 19. In the embodiments shown in figures 8-12, wire-mesh ring 19 displays a "L"-shaped section and accommodation seat 20 is formed so as to clamp a lower horizontal portion of wire-mesh ring 19.
Figures 10-12 show a possible embodiment of annular accommodation seat 20 of wire-mesh ring 19; specifically, accommodation seat 20 shown in figures 10-12 consists of a plurality of portions 21 of diaphragm 6, each of which is arranged to delimit bypass opening 12 and is deformed to catch a horizontal portion of wire-mesh ring 19. Portions 21 of diaphragm 6 are alternatively deformed in opposite directions to catch opposite sides of the horizontal portion of wire-mesh ring 19.
The above-described Muffler 1 displays a number of advantages, because it is simple and cost-effective to make and at the same time displays a high reliability in time; such result is obtained in virtue of the fact that the use of elastic foil 13 allows to make bypass valve 10 essentially insensitive to the incrustations formed by the exhaust gases.

Claims

A variable geometry muffler (1) for an exhaust system of an internal combustion engine; the muffler (1) comprises:
a tubular body (2), which displays an inlet opening (3), an outlet opening (4) and a labyrinth (5) which determines a path for the exhaust gases from the inlet opening (3) to the outlet opening (4); and

at least one bypass valve (10), which is arranged within the tubular body (2) to modify the geometry of the labyrinth (5) according to the exhaust gas pressure;

the bypass valve (10) comprising a lid (11), which is coupled to a bypass opening (12) and is mobile from a closed position of the bypass opening (12) to an opening position of the bypass opening (12) by effect of the exhaust gas pressure and against the bias of an elastic body which tends to maintain the lid (11) in the closed position;

the muffler (1) is characterised in that the elastic body consists of an elastic foil (13), which is folded as a "U" and displays a mobile end (14) coupled to the lid (11) and a fixed end (15) which is opposite to the mobile end (14) and integral with a fixed part of the muffler (1).
A muffler (1) according to claim 1, wherein the mobile end (14) of the elastic foil (13) supports the lid (11).
A muffler (1) according to claim 2, wherein the mobile end (14) of the elastic foil (13) supports the lid (11) by means of the interposition of a connecting element, which is fixed both to the mobile end (14) and to the lid (11).
A muffler (1) according to claim 1, 2 or 3, wherein the fixed end (15) of the elastic foil (13) is arranged by the side of the bypass opening (12).
A muffler (1) according to claim 4, wherein the fixed end (15) of elastic foil (13) is fixed to a support (16), which is fixed to a fixed part of the muffler (1), is arranged over the bypass opening (12) and displays a through hole (17) obtained at bypass opening (12) itself.
A muffler (1) according to claim 1, wherein the lid (11) consists of an extension of the mobile end (14) of the elastic foil (13) and forms a monolithic body with the elastic foil (13) itself.
A muffler (1) according to claim 1, wherein the mobile end (14) of the elastic foil (13) is directly fixed to the lid (11) and the fixed end (15) of the elastic foil (13) is fixed to a support (16) fixed onto a fixed part of the muffler (1).
A muffler (1) according to claim 7, wherein the support (16) is shaped as an inverted "U".
A muffler (1) according to claim 1, wherein the lid (11) is hinged to a fixed part of the muffler (1) and the mobile end (14) of the elastic foil (13) rests on the lid (11).
A muffler (1) according to claim 9, wherein a support (16), which is integral with a fixed part of the muffler (1), accommodates the fixed end (15) of the elastic foil (13), and supports a hinging pin (18) of the lid (11), is provided.
A muffler (1) according to claim 10, wherein the pin (18) is integral with the support (16) and the lid (11) turns with respect to the pin (18).
A muffler (1) according to claim 10, wherein the pin (18) is integral with the lid (11) and turns with respect to the support (16).
A muffler (1) according to claim 10, 11 or 12, wherein the elastic foil (13) partially envelops the pin (18).
A muffler (1) according to one of the claims from 1 to 13, wherein the bypass valve (10) comprises a wire-mesh ring (19), which is arranged about the bypass opening (12) to define an abutting element against which the lid (11) rests in the closed position.
A muffler (1) according to claim 14, wherein the bypass opening (12) is obtained through a diaphragm (6), which displays an annular accommodation seat (20) of the wire-mesh ring (19).
A muffler (1) according to claim 15, wherein the wire-mesh ring (19) displays a rectangular section; the accommodation seat (20) consists of a "U"-shaped fold of the diaphragm (6) squashed to clamp a lower portion of the wire-mesh ring (19).
A muffler (1) according to claim 15, wherein the wire-mesh ring (19) displays an "L"-shaped section; the accommodation seat (20) consists of a plurality of portions of the diaphragm (6) each of which is arranged to delimit the bypass opening (12) and is deformed to catch a lower horizontal portion of the wire-mesh ring (19).
A muffler (1) according to claim 17, wherein the portions (21) of the diaphragm (6) are alternatively deformed in opposite directions to catch opposite sides of the horizontal portion of the wire-mesh ring (19).