FR2843999A1 - ACTIVE DEVICE FOR ATTENUATING MOUTH NOISE AT AN EXHAUST OR INTAKE DUCT - Google Patents

Abstract

Device for attenuating the mouth noise generated at an exhaust (9) or intake (39) duct connected to a pulsed flow source (2) such as a heat engine (2) or a reciprocating compressor characterized in that it comprises: - at least two sensors (15) (16) arranged inside the duct (9), between the end (10) of said duct (9) and the flow source pulsed (2) and spatially offset from each other; - electronic processing means (17) for signals from said sensors (15) (16), capable of generating signals corresponding to a counter wave noise; - at least one electro-acoustic source (20,21) disposed outside and in the immediate vicinity of the end (10) of the duct (9), and controlled by the signals corresponding to the counter wave noise

Description

* 14. 2843999

  ACTIVE DEVICE FOR ATTENUATING MOUTH NOISE IN

  LEVEL OF AN EXHAUST OR INTAKE DUCT

  Technical field: The invention relates to the field of emission reduction

  acoustic. The invention aims to reduce the mouth noises generated by pulsed flows such as for example the exhaust or the intake of an alternating engine, or even the intake of an alternating compressor. It finds a very particular application on vehicles with an internal combustion engine, and in particular motor vehicles, utility vehicles as well as stationary vehicles.

  PRIOR ART: In general, it is recognized that the mouth noises generated by the flow of exhaust gases are one of the main sources of noise pollution from a vehicle equipped with an internal combustion engine. Others

  sources of noise nuisance reside in the noise of the mechanical parts within the engine itself, the combustion noise, the aerodynamic noise, the rolling noise, etc ... More specifically, the mouth noises generated by the gas exhaust or intake air can be analyzed as a sound wave propagating from the end of the duct.

  Different solutions have been proposed to reduce the loudness generated by these mouth sounds. In a first approach, it has been proposed to equip the exhaust duct with a movable throttle valve, the displacement of which is controlled to vary the pressure losses of the exhaust duct. This instantaneous variation in pressure drops in the duct is controlled according to a signal produced from a sensor measuring the pressure variation at the inlet of the exhaust duct, so as to minimize the fluctuations in flow rate and pressure at the outlet of the line, responsible for the noise emitted by the mouth. Such a device has certain drawbacks, in particular with regard to the motorization necessary for ensuring the displacement of the butterfly, since it requires sufficiently short response times. In addition, the butterfly opposing the exhaust flow must have sufficient rigidity which generally results in an increase in its mass and therefore greater difficulty.

to order the movement.

  Furthermore, this type of device has limitations in its proper operation when the exhaust duct is equipped with devices such as a particle filter, generating high pressure drops, and in particular a variable pressure drop. Indeed, and in particular on vehicles with a diesel engine, the regulations impose the installation of particle filters, the principle of which consists in accumulating the particles entrained by the exhaust gases, within the exhaust duct. As the particle filter becomes clogged, the pressure drops it generates are variable, and typically in a ratio of 1 to 4 or more. These additional variable head losses greatly disrupt the regulation of the investments of the

  displacement of the butterfly to be implemented.

  In another approach, it has also been proposed to inject a noise reduction wave at the level of the exhaust duct and typically within the muffler device forming a cavity disposed on the path of the exhaust gases. Such a solution is for example described in document WO-00/05489. The counter-noise source located in the silencer is controlled from a signal from a sensor placed upstream on the exhaust duct. One of the drawbacks of this type of device resides, on the one hand, in the fact that the counter-noise source undergoes the average pressure which prevails in the silencer and which can reach high values when it is a question of the filter. with clogged particles. On the other hand, the source of counter-noise is directly

  exposed to the very high temperatures produced by filter regeneration.

  Another major drawback lies in the fact that the particle filter has very variable acoustic characteristics depending on its state of clogging. Thus, among the waves measured by the sensor placed at its entry, the share of those which propagate towards the exit mouth and the share of those which are reflected upstream are variable which requires an ad hoc evolution of the

  correction strategy, failing which the result obtained is far from optimal.

  A problem which the invention proposes to solve is that of allowing an effective reduction of the mouth noise, despite the use of a particle filter whose influence on the characteristics of the exhaust flow.

is in principle variable.

  Another problem which the invention proposes to solve is that of providing a robust system which is not subjected to the influences of the temperature of the

  exhaust gases as well as the temperature variation.

  Another problem which the invention seeks to solve is that of providing a counter-noise wave which is always as strictly as possible opposite the

  noise emitted by the mouth, despite the variation in clogging of a particulate filter.

  DESCRIPTION OF THE INVENTION The invention therefore relates to a device for attenuating the mouth noise 20 generated at the end of an exhaust or intake duct connected to a source of pulsed flow, such as '' a heat engine, or a compressor

alternative for example.

  According to the invention, this device is characterized in that it comprises: - at least two sensors arranged inside the duct, between the mouth of the duct and the source of pulsed flow, and spatially offset one by the other compared to the others, - electronic means for processing the signals from said sensors, capable of generating signals corresponding to a counter-noise wave, 4. - at least one electro-acoustic source, placed in close proximity to the mouth of the driven, and controlled by the corresponding wave signals

against noise.

  In other words, the device according to the invention ensures the capture of the pressure wave which propagates along the exhaust duct by means of several spatially offset sensors, which makes it possible to determine not only the shape and the amplitude, but also the moment when this pressure wave will appear at the mouth, by analyzing the offset 10 between the signals from different sensors. In addition, these sensors are placed sufficiently upstream of the end of the conduit, and therefore of the counter-noise source to allow a precise and faithful development of the counter-noise wave by compensating for the response times of the source. Electroacoustic. Finally, the electroacoustic source is disposed not inside the exhaust duct 15 but outside of the latter, which means that it is not subjected to the high temperatures of the exhaust gases, and in contact possibly corrosive substances. This electro-acoustic source is arranged in such a way that the counter-noise wave which it emits comes from a point which is very close to the point of emission of the muzzle wave, so that the strict opposition phase between noise and noise obtained at the mouth is

  conserves in all the space where these two waves propagate.

  In practice, when the duct is fitted with a cavity acting as a silencer, or in particular as a particle filter, the sensors are arranged between this cavity and the end of the duct. In this way, one avoids disturbances which can affect the pressure wave when it propagates inside this type.

cavity.

  In a particular embodiment, the device can also comprise an additional sensor, disposed near the end of the duct, and connected to the processing means. Such a sensor makes it possible to observe, on the outside of the duct and at a point representative of the external volume to be protected, the correction errors, so as to consequently correct the parameters which intervene in the algorithm for calculating the control signals of the sources of noise control. Such a sensor makes it possible in particular to adapt this algorithm with respect to external parameters varying slowly, such as the temperature, or the

atmospheric pressure.

  In practice, it is considered that it is preferable for the sensors to be distant from the end of the conduit by a distance of the order of one meter. This distance, for frequencies of the order of a kiloHertz, allows a time of

  sufficient processing with conventional electronic means of the microprocessor signal processing (DSP) type.

  In practice also, it is preferred that the sensors are distant from each other by a distance of the order of a decimeter, which makes it possible to discriminate without difficulty the phase of the pressure wave for a range of frequencies.

going up to about kiloHertz.

  In a particular, particularly advantageous embodiment, the electro-acoustic sources can be arranged in an annular ring, concentric with the end of the duct, so that the counter-noise wave is emitted from an area centered on the axis of the duct. Maintaining the strict opposition between the noise wave and the counter-noise wave during the propagation of the latter at any distance from the mouth is therefore favored. 25 However, other architectures can be used in which the sources of counter-noise are simply placed close to the end of the duct, preferably, in the case where they are multiple with a distribution.

balanced around the duct.

Brief description of the figures

  The manner of carrying out the invention, as well as the advantages which

  will emerge clearly from the description of the modes of execution which

  follow, in support of the appended figures in which: - Figure 1 is a diagram illustrating the arrangement of the various organs of the

  device according to the invention, fitted to an exhaust duct.

  - Figure 2 is a schematic representation of a device according

  to the invention applied to an intake duct.

  Ways of Carrying Out the Invention As mentioned, the invention relates to a device for attenuating the noise nuisance caused by the mouth noises of an exhaust pipe, in particular of a motor vehicle. The application to such an exhaust circuit is illustrated in FIG. 1. The active device (1) object of the present invention is placed at the outlet of the exhaust line (3) located itself at the outlet of the engine. (2). The exhaust line (3) comprises various pipes (4,7) making it possible to channel the exhaust gases (5) to an assembly composed for example of a silencer (6) and a particle filter ( 8) arranged to retain a fraction of the solid particles entrained by the exhaust gases 20 (5). However, the present invention also covers the application of the active attenuation device described to exhaust lines of all types, comprising a simple silencer, or an expansion volume connected to a silencer by a tube, or even a filter. anti-particles used alone, additional volumes, whatever the arrangement of these components. According to the invention, the attenuation device (1) comprises at least two sensors (15,16) arranged on the tube (9), directly downstream of the exhaust line (3). These pressure sensors can be of the capacitive or inductive diaphragm microphone, piezoelectric microphone or any other type. These two sensors (15) (16) generate electrical signals

  representative of the pressure wave propagating in the conduit (9).

  These electrical signals are routed to a computer (17) equipped with processing and calculation means, which may in particular include signal processing processors (DSP). These processing means (17) are programmed to determine the amplitude of the wave which will appear at the mouth and the instant when it will appear there, from each signal produced by the sensors (15,16) , taking into account the distance (d) separating the two sensors along the

path of propagation of gases.

  This calculation is based on the determination of the propagation speed of this wave from the phase shift between the signals from the sensors (15) and (16). It will be able to separate the incident waves propagating from the sensors towards the mouth of the

  reflected waves propagating from the mouth to the sensors.

  This development can take into account different parameters and in particular the shape of the conduit downstream of the sensors (15,16) and the corresponding pressure drops. Other parameters such as temperature or the like can

also be taken into account.

  Depending on the evaluation of this mouth wave, the processing means (17) develop a counter-noise signal corresponding to the wave which combined with the mouth wave is intended to reduce the sound intensity emitted by

  being as strictly as possible opposed to it.

  As a function of the estimated propagation time of the wave in the exhaust gases, the processing means (17) control with the time offset necessary for compensating the response times of the electroacoustic sources (20,21) located nearby. from the end (10) of the conduit (9). These electro-acoustic sources can be of very varied types and in particular be formed by loudspeakers, compression chambers, or the like. The processing means are also programmed to take into account the rise times of these different electro-acoustic sources, corresponding to the offset between the emission of a sound wave by the electro-acoustic source relative to the

electrical control signal.

  In the preferable form illustrated, the electro-acoustic sources (20, 21)

  are arranged at the periphery of an annular ferrule (22) arranged concentrically with the conduit (9). The center of symmetry of this ferrule (22) therefore corresponds to the center of the end (10) of the duct (9), so that the virtual point corresponding to the center of emission of the counter-noise wave is confused with 10 the point of emission of the mouth wave.

  In the illustrated form, the annular ring (22) is equipped with two sources

  electro-acoustic (20) (21) which open into the interior of the shell (22).

  However, a greater number of sources can be envisaged without departing from the scope of the invention. Similarly, the electro-acoustic sources of counter-noise can be arranged not in a concentric ferrule (22), but have one or more outlet chambers oriented parallel to the outlet of the conduit (9). The electro-acoustic sources of counter-noise can also be placed near the outlet (10) by fixing them to any suitable support. 20 Optionally, an additional sensor (25) is arranged at

  near the end (10) of the duct in an area where the muzzle wave and the counter-noise wave combine. This sensor (25) is connected to the processing means (17), which makes it possible to carry out a feedback making it possible to correct certain processing errors.

  In practice, these correction errors make it possible to modify certain

  parameters of the algorithm for calculating the control signals of the counter-noise sources which vary slowly over time, such as in particular the outside temperature or the atmospheric pressure.

  In practice, the sensors (15,16) are distant from the sources of noise by a distance (D) of the order of a meter, which allows a time shift of a few milliseconds from the capture, for the development of the counter-noise signal and control of the electro-acoustic source, taking into account its rise time. As already mentioned, the invention is also suitable for the treatment of muzzle waves generated in an intake duct and this as illustrated in FIG. 2. In this case, the muzzle wave has been brought to the level of the inlet end (30) of the conduit (39). Two sensors (35,36) are arranged upstream of the

  air (38). The processing means (37) perform the same type of calculation for the development of the counter-noise wave which will be emitted by the electroacoustic sources (40) (42).

  It appears from the above that the device according to the invention has multiple advantages and in particular that of estimating with anticipation the noise which will be emitted by the mouth of the conduit, so as to be able to carry out the corrections necessary to predetermine the signal of control of the noise canceling transmitter. In addition, the pressure sensors are not subjected to high average pressures in the case where the particle filter or the air filter are clogged. Furthermore, the more or less complex transfer functions of the silencers, and variable when a filter is used, are not to be taken into account in

  the signal processing algorithm.

-10

Claims (3)

  -1- Device for attenuating the mouth noise generated at an exhaust (9) or intake (39) duct connected to a pulsed flow source (2) 5 such as a heat engine ( 2) or an alternative compressor characterized in that it comprises: - at least two sensors (15) (16) arranged inside the duct, between the mouth (10) of said duct (9) and the flow source pulsed (2) and spatially offset from each other; - electronic means for processing (17) the signals from said sensors (15) (16), capable of generating signals corresponding to a counter-noise wave; - at least one electro-acoustic source (20,21) placed outside and in the immediate vicinity of the end (10) of the duct (9), and controlled by the 15 signals corresponding to the counter-noise wave   -2- Device according to claim 1, characterized in that the duct is equipped with a cavity (8), playing the role of silencer or the particulate filter in particular, and in that the sensors (15,16) are arranged between said cavity (8) and the end 20 (10) of the conduit.   -3- Device according to claim 1, characterized in that it also comprises at least one additional sensor (24), disposed near the end (10) of the conduit (9), and connected to the processing means (17 ). 25 -4- Device according to claim 1 characterized in that the sensors (15,16) are distant from the end (10) of the conduit by a distance (D) of the order of a meter. -5- Device according to claim 1, characterized in that the sensors (15,16)   are spaced from each other by a distance (d) of the order of a decimeter. 11-   -6- Device according to claim 1, characterized in that the electroacoustic sources (20) (21) are arranged in an annular ring (22) concentric with the end (10) of the conduit (9).   Applicant: Agent: COMPTOIR DE LA TECHNOLOGIE LAURENT and CHARRAS