EP1371056B1 - Sound transmission device for a motor vehicle - Google Patents

Sound transmission device for a motor vehicle Download PDF

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Publication number
EP1371056B1
EP1371056B1 EP02724120A EP02724120A EP1371056B1 EP 1371056 B1 EP1371056 B1 EP 1371056B1 EP 02724120 A EP02724120 A EP 02724120A EP 02724120 A EP02724120 A EP 02724120A EP 1371056 B1 EP1371056 B1 EP 1371056B1
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EP
European Patent Office
Prior art keywords
resonator
transmission line
chambers
resonator chambers
sound
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
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EP02724120A
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German (de)
French (fr)
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EP1371056B2 (en
EP1371056A1 (en
Inventor
Reinhard Hoffmann
Kay Brodesser
Udo Lindner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Bayerische Motoren Werke AG
Mahle Filtersysteme GmbH
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Bayerische Motoren Werke AG
Mahle Filtersysteme GmbH
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Application filed by Bayerische Motoren Werke AG, Mahle Filtersysteme GmbH filed Critical Bayerische Motoren Werke AG
Publication of EP1371056A1 publication Critical patent/EP1371056A1/en
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    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10KSOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
    • G10K11/00Methods or devices for transmitting, conducting or directing sound in general; Methods or devices for protecting against, or for damping, noise or other acoustic waves in general
    • G10K11/18Methods or devices for transmitting, conducting or directing sound
    • G10K11/22Methods or devices for transmitting, conducting or directing sound for conducting sound through hollow pipes, e.g. speaking tubes

Definitions

  • the invention relates to a device for targeted sound transmission from an intake tract of an internal combustion engine a motor vehicle, in particular a passenger car, to an interior of the motor vehicle, with the features of the preamble of claim 1.
  • Such a sound transmission device is for example known from DE 199 22 216 A1 and has a hollow Transmission line on the input side with the intake the internal combustion engine is communicatively connected and to which a resonator chamber is connected.
  • This resonator chamber is on a certain frequency or on one tuned to a specific frequency band and is aligned that they feed one via the transmission line Sound radiates to the vehicle interior.
  • the present invention deals with the problem for a sound transmission device of the aforementioned To specify an embodiment in which the possibility for specific generation of a desired sound effect or sounds in the vehicle interior is improved.
  • This problem is inventively achieved in that a plurality of parallel-acting resonator chambers are provided, at least two of them with regard to their frequency tuning differ from each other.
  • the invention uses Thereby the realization that the sound transmission system of the inventive device operates with resonances, wherein Resonance effects usually only in relatively narrow frequency ranges occur.
  • Resonance effects usually only in relatively narrow frequency ranges occur.
  • By creating several resonator chambers can thus several, different resonance frequencies be exploited to the desired sound effect to generate.
  • different resonator chambers can use different frequencies of the engine generated sound to be amplified in the Vehicle interior to produce the desired sound impression.
  • the Schallübertragungsstrekken from the intake tract to the individual resonator chambers as be formed ⁇ / 2 resonators or one as a ⁇ / 2 resonator have trained portion, wherein from the ⁇ / 2 resonators at least two in terms of their frequency tuning differ from each other.
  • each resonator chamber is preceded by a ⁇ / 2 resonator, resulting in an additional frequency gain achieve.
  • each resonator chamber be associated with a membrane, which is supplied by the Sound is excited to vibrate.
  • the first room forms a so-called "Helmholtz resonator", whose characteristic is the volume of the second space can be influenced.
  • At least two of the membranes in terms of their frequency tuning differ from each other. Accordingly arise various possibilities for frequency tuning of the individual Resonator.
  • switching means be provided with which the individual resonator chambers can be activated and deactivated.
  • the individual resonator chambers be activated in succession, so that only one Resonator chamber is activated while all others disabled are. It is also possible several, in particular all to activate resonator chambers. It can be different Combinations are switched to different Generate sound effects.
  • the switching means for activation or deactivation of the individual resonator chambers are preferably in such an internal combustion engine depending on the respective switching state of the Switch suction system actuated. That way, changes can happen the Schallabstrahlungs characterizing the internal combustion engine compensated when switching the switch intake system and / or be influenced, such that in the vehicle interior in each switching state of Wennsaugstrom a desired Hearing impression arises.
  • an air intake tract 1 of an internal combustion engine 2 an air filter 3, in which a filter element 4 a raw side 5 of a clean side 6 separates.
  • a Connecting line 7, for example, formed by a tube can connect the air filter 3 with a Air collector 8, the fresh air sucked on individual Cylinder 9 of the internal combustion engine 2 distributed.
  • a sound field is formed whose sound or noise characteristic with one of the internal combustion engine 2 performed power, in particular with their speed, correlated.
  • an acoustic feedback of the engine activity by the way, that does not work illustrated motor vehicle, in particular a passenger car, preferably a sports car is, about an in Figs. 2 and 3 illustrated sound transmission device 10th
  • an input side 11 of this sound transmission device 10 preferably to the connecting line 7 of the intake tract 1 connected.
  • the input side 11 ' is connected to the clean side 6 of the air filter 3. at For some types of vehicles, it may be beneficial to the input side 11 '' to connect to the air collector 8.
  • the input side 11 ''' with be connected to the raw side 5 of the air filter 3.
  • the input side 11 ''''' upstream of the air filter 3 to connect to the raw side of the intake 1. at the embodiments in which the sound transmission device 10 communicates with the clean side of the air intake tract 1, Care must be taken to ensure that the sound transmission device 10 is formed airtight to the outside.
  • the sound transmission device has For example, three hollow transmission lines 12, here relatively close to each other Connecting line 7 are connected. It is also possible that the different transmission lines 12 at different Positions connected to the intake 1 are. For this purpose, reference is made to the above, by way of example Connection possibilities of the input side 11 to 11 '' '' referenced.
  • Each transmission line 12 leads to a resonator chamber 13.
  • Each resonator chamber 13 is on the input side via a Membrane 14 gas-tight from the associated transmission line 12 separated and output side with an outlet pipe 15th connected.
  • all outlet pipes 15 are connected to a common collector 16, the one for all resonator 13 a common Sound outlet tube 17 has, here with a funnel-shaped outlet 18 is equipped.
  • This exit 18 is frontal in front of a partition wall 19, the so-called "Bulkhead", which positions an engine compartment 20 from one Vehicle interior 21 separates. Accordingly, the Sound transmission through this partition 19 therethrough.
  • the sound outlet 18 in the partition wall 19th form or the sound outlet tube 17 through the partition 19 pass, so the sound outlet 18 directly to arrange in the vehicle interior 21.
  • Each transmission line 12 forms together with the associated Resonator chamber 13 and the associated membrane 14 a Sound transmission system, so that in the illustrated in Fig. 2 Embodiment three such sound transmission systems which may be active simultaneously or in parallel can. Likewise, embodiments are more or less Sound transmission systems possible.
  • the individual sound transmission systems are preferably different in terms of Frequencies tuned to a desired Broadband effect for the sound transmission device 10 to realize.
  • At least two of the resonator chambers 13 are therefore with regard to their frequency tuning each other designed differently. For example, differentiate they are in terms of their volume.
  • the individual membranes can with regard to differ in diameter from each other. As well can use different materials, different thicknesses and mass assignments are selected.
  • they can also the individual transmission lines 12 differ from each other, e.g. in terms of their diameter and / or in terms of their length.
  • Fig. 2 shows a preferred embodiment in which the Sound transmission device 10 according to the invention switching means 22, with which the individual sound transmission systems or the individual resonator chambers 13 can be activated and can be deactivated.
  • the switching means 22 have in each transmission line 12, a flap 23, respectively for example, a perpendicular to the plane of the drawing Swivel axis 24 is pivotally adjustable.
  • Actuators 25 are provided, each one of the flaps 23 for adjustment.
  • the individual actuators 25 are via corresponding control lines 26 with a Control 27 connected to the individual actuators 25 operated in response to predetermined parameters.
  • Fig. 3 is in another embodiment the sound transmission device 10 according to the invention each Resonator chamber 13 via a separate connecting line 28 at a common transmission line 29 connected to the in turn with its input side 11 to the intake tract 1, here to the air line 7, is connected.
  • each Resonator chamber 13 via a separate connecting line 28 at a common transmission line 29 connected to the in turn with its input side 11 to the intake tract 1, here to the air line 7, is connected.
  • the individual connecting lines 28 at different Set 30 and 31 to the common transmission line 29 connected It is also possible that all connecting lines 28 approximately at the same point of the common transmission line 29 branch off or go out.
  • connection lines 28 may be different from each other differ, preferably in terms of their diameter and / or their length. Also, the connection lines 28 can be formed as a ⁇ / 2 resonator.
  • the flaps 23 are pivoted to the cross section of the transmission line 12 (in the example of FIG. 2) or the connecting line 28 (in the example of FIG. 3) for activating the respective Resonator chamber 13 to open and to disable the close each resonator chamber 13.
  • the upper and the middle resonator chambers 13 while the lower resonator chamber 13 is deactivated is.
  • the embodiment according to FIG. 3 activates the upper and lower resonator chambers 13, FIG. while the central resonator chamber 13 is deactivated is.
  • the resonator chambers 13 shown in FIG. 3 differ from those of Fig. 2 by the arrangement of the membranes 14.
  • the membranes are so within the resonator chambers 13 arranged that the membrane 14 there a input-side first space 32 from an output side second room 33 separates.
  • the respective first forms Room 32 is a so-called "Helmholtz resonator".
  • the individual resonator chambers 13 different in terms of their frequency tuning be configured, with the individual sound transmission systems with regard to the configuration of the connection lines 28, as well as the volumes of the resonator chambers 13 can differ from each other.
  • the membranes can 14 may be formed differently.
  • different frequency adjustments can occur also by variations of the size of the first one Room 32 and / or the second room 33 result.
  • a damping body 34 may be used, for example is formed of an open-cell foam.
  • a damping material in the respective Exhaust pipe 15 or in the first room 32 or in accommodate the connecting line 28 Exemplary this damping body 34 in Fig. 3 only in the lower sound transmission system used.
  • a or another damping material in the other Sound transmission systems are arranged.
  • the sound outlet tube 17 of the upper Sound transmission system arranged a diaphragm 35, whose Aperture cross section is smaller than the tube cross section of the Outlet pipe 15.
  • the aperture cross section can also be the acoustic behavior of the resonance system be varied.
  • each outlet pipe 15 has its own Sound exit 18 on; These are each near the partition 19 positioned. Again, it is possible the sound leaks 18 in or beyond the partition 19 to order.
  • the sound transmission device 10 for Amplification of different frequencies or frequency bands is formed, resulting in relatively diverse design options for the generation and modulation of a desired engine sounds in the vehicle interior 21.
  • the controller 27 the Switching means 22, for example, depending on the current Operate state of the internal combustion engine 2.
  • the resonator chambers 13 individually or disable.
  • two or more Resonator chambers are activated in parallel.
  • all resonator chambers are activated or deactivated.
  • two of several sound transmission systems to be interpreted in terms of the same frequency, wherein in a first operating point only one of these Sound transmission systems is active while in a second Operating point both sound transmission systems in parallel to activate the assigned frequency again strengthen.
  • connection lines are 28 of the upper and lower sound transmission system so connected to the common transmission line 29, that they lead substantially perpendicularly in this.
  • the connecting line 28 the middle acoustic transmission system a coaxial extension the common transmission line 29.
  • the connecting cables 28 of the upper and lower sound transmission system each formed as a ⁇ / 2 resonator.
  • the collector 16 in a particular Embodiment with several, here two, common outlet tubes 17 'and 17 "equipped with regard to their dimensions differ from each other. Also by this measure, the spectrum of the radiated Sound frequencies are affected.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Acoustics & Sound (AREA)
  • Multimedia (AREA)
  • Exhaust Silencers (AREA)
  • Characterised By The Charging Evacuation (AREA)
  • Cooling, Air Intake And Gas Exhaust, And Fuel Tank Arrangements In Propulsion Units (AREA)

Description

Die Erfindung betrifft eine Vorrichtung zur gezielten Schallübertragung von einem Ansaugtrakt einer Brennkraftmaschine eines Kraftfahrzeugs, insbesondere eines Personenkraftwagens, zu einem Innenraum des Kraftfahrzeugs, mit den Merkmalen des Oberbegriffs des Anspruchs 1.The invention relates to a device for targeted sound transmission from an intake tract of an internal combustion engine a motor vehicle, in particular a passenger car, to an interior of the motor vehicle, with the features of the preamble of claim 1.

Eine derartige Schallübertragungsvorrichtung ist beispielsweise aus der DE 199 22 216 A1 bekannt und weist eine hohle Übertragungsleitung auf, die eingangsseitig mit dem Ansaugtrakt der Brennkraftmaschine kommunizierend verbunden ist und an die eine Resonatorkammer angeschlossen ist. Diese Resonatorkammer ist auf eine bestimmte Frequenz oder auf ein bestimmtes Frequenzband abgestimmt und ist dabei so ausgerichtet, dass sie einen über die Übertragungsleitung zugeführten Schall zum Fahrzeuginnenraum abstrahlt.Such a sound transmission device is for example known from DE 199 22 216 A1 and has a hollow Transmission line on the input side with the intake the internal combustion engine is communicatively connected and to which a resonator chamber is connected. This resonator chamber is on a certain frequency or on one tuned to a specific frequency band and is aligned that they feed one via the transmission line Sound radiates to the vehicle interior.

Es hat sich gezeigt, dass sich mit Hilfe der bekannten Schallübertragungsvorrichtung bei bestimmten Brennkraftmaschinen bzw. bei bestimmten Fahrzeugen nur ein unzureichender Geräuscheffekt bzw. Sound im Fahrzeuginnenraum erzielen lässt. Die Möglichkeiten zur gezielten Generierung eines gewünschten Sounds im Fahrzeuginnenraum sind bei der bekannten Schallübertragungsvorrichtung relativ eingeschränkt. It has been shown that with the help of the known Sound transmission device in certain internal combustion engines or for certain vehicles only inadequate Achieve noise effect or sound in the vehicle interior leaves. The possibilities for targeted generation of a desired Sounds in the vehicle interior are in the known Sound transmission device relatively limited.

Die vorliegende Erfindung beschäftigt sich mit dem Problem, für eine Schallübertragungsvorrichtung der eingangs genannten Art eine Ausführungsform anzugeben, bei der die Möglichkeit zur gezielten Generierung eines gewünschten Geräuscheffekts oder Sounds im Fahrzeuginnenraum verbessert ist.The present invention deals with the problem for a sound transmission device of the aforementioned To specify an embodiment in which the possibility for specific generation of a desired sound effect or sounds in the vehicle interior is improved.

Dieses Problem wird erfindungsgemäß dadurch gelöst, dass mehrere, parallel wirkende Resonatorkammern vorgesehen sind, von denen sich mindestens zwei hinsichtlich ihrer Frequenzabstimmung voneinander unterscheiden. Die Erfindung nutzt dabei die Erkenntnis, dass das Schallübertragungssystem der erfindungsgemäßen Vorrichtung mit Resonanzen arbeitet, wobei Resonanzeffekte üblicherweise nur in relativ engen Frequenzbereichen auftreten. Durch die Schaffung mehrerer Resonatorkammern können somit mehrere, verschiedene Resonanzfrequenzen ausgenutzt werden, um den gewünschten Geräuscheffekt zu generieren. Durch mehrere, unterschiedliche Resonatorkammern, können verschiedene Frequenzen des von der Brennkraftmaschine erzeugten Schalls gezielt verstärkt werden, um im Fahrzeuginnenraum den gewünschten Geräuscheindruck herzustellen.This problem is inventively achieved in that a plurality of parallel-acting resonator chambers are provided, at least two of them with regard to their frequency tuning differ from each other. The invention uses Thereby the realization that the sound transmission system of the inventive device operates with resonances, wherein Resonance effects usually only in relatively narrow frequency ranges occur. By creating several resonator chambers can thus several, different resonance frequencies be exploited to the desired sound effect to generate. Through several, different resonator chambers, can use different frequencies of the engine generated sound to be amplified in the Vehicle interior to produce the desired sound impression.

Bei einer Weiterbildung können die Schallübertragungsstrekken vom Ansaugtrakt zu den einzelnen Resonatorkammern als λ/2-Resonatoren ausgebildet sein oder einen als λ/2-Resonator ausgebildeten Abschnitt aufweisen, wobei sich von den λ/2-Resonatoren zumindest zwei hinsichtlich ihrer Frequenzabstimmung voneinander unterscheiden. Durch diese Maßnahmen wird jeder Resonatorkammer ein λ/2-Resonator vorgeschaltet, wodurch sich eine zusätzliche Frequenzverstärkung erzielen lässt. Durch unterschiedliche Längen der Schallübertragungsstrecken können dabei verschiedene Resonanzfrequenzen eingestellt werden.In a further development, the Schallübertragungsstrekken from the intake tract to the individual resonator chambers as be formed λ / 2 resonators or one as a λ / 2 resonator have trained portion, wherein from the λ / 2 resonators at least two in terms of their frequency tuning differ from each other. Through these measures each resonator chamber is preceded by a λ / 2 resonator, resulting in an additional frequency gain achieve. By different lengths of sound transmission paths can use different resonance frequencies be set.

Bei einer anderen Weiterbildung kann jeder Resonatorkammer eine Membran zugeordnet sein, die durch den zugeführten Schall zu Schwingungen angeregt wird. Zweckmäßig trennt mindestens eine der Membranen in der zugehörigen Resonatorkammer einen eingangsseitigen ersten Raum von einem ausgangsseitigen zweiten Raum. Der erste Raum bildet dabei einen sogenannten "Helmholtz-Resonator", dessen Charakteristik durch das Volumen des zweiten Raums beeinflussbar ist.In another development, each resonator chamber be associated with a membrane, which is supplied by the Sound is excited to vibrate. Appropriately separates at least one of the membranes in the associated resonator chamber an input side first space from an output side second room. The first room forms a so-called "Helmholtz resonator", whose characteristic is the volume of the second space can be influenced.

Bei einer vorteilhaften Weiterbildung können sich zumindest zwei der Membranen hinsichtlich ihrer Frequenzabstimmung voneinander unterscheiden. Dementsprechend ergeben sich vielfältige Möglichkeiten zur Frequenzabstimmung der einzelnen Resonatorkammern.In an advantageous development, at least two of the membranes in terms of their frequency tuning differ from each other. Accordingly arise various possibilities for frequency tuning of the individual Resonator.

Bei einer besonderen Ausführungsform können Schaltmittel vorgesehen sein, mit denen die einzelnen Resonatorkammern aktivierbar und deaktivierbar sind. Durch diese Bauweise ist es möglich, einzelne Resonatorkammern anzuschalten und abzuschalten. Insbesondere können die einzelnen Resonatorkammern dadurch nacheinander aktiviert werden, so dass immer nur eine Resonatorkammer aktiviert ist, während alle anderen deaktiviert sind. Ebenso ist es möglich mehrere, insbesondere alle, Resonatorkammern zu aktivieren. Dabei können verschiedene Kombinationen geschaltet werden, um unterschiedliche Soundeffekte zu generieren.In a particular embodiment, switching means be provided with which the individual resonator chambers can be activated and deactivated. By this construction is it is possible to turn on and off individual resonator chambers. In particular, the individual resonator chambers be activated in succession, so that only one Resonator chamber is activated while all others disabled are. It is also possible several, in particular all to activate resonator chambers. It can be different Combinations are switched to different Generate sound effects.

Von besonderer Bedeutung ist die erfindungsgemäße Schallübertragungsvorrichtung bei einer Brennkraftmaschine, die mit einer Schaltsauganlage ausgestattet ist. Die Schaltmittel zur Aktivierung bzw. Deaktivierung der einzelnen Resonatorkammern werden bei einer solchen Brennkraftmaschine vorzugsweise in Abhängigkeit des jeweiligen Schaltzustands der Schaltsauganlage betätigt. Auf diese Weise können Veränderungen der Schallabstrahlungscharakteristik der Brennkraftmaschine beim Schalten der Schaltsauganlage kompensiert und/oder beeinflusst werden, derart, dass im Fahrzeuginnenraum in jedem Schaltzustand der Schaltsauganlage ein gewünschter Höreindruck entsteht.Of particular importance is the sound transmission device according to the invention in an internal combustion engine, the equipped with a Schaltsauganlage. The switching means for activation or deactivation of the individual resonator chambers are preferably in such an internal combustion engine depending on the respective switching state of the Switch suction system actuated. That way, changes can happen the Schallabstrahlungscharakteristik the internal combustion engine compensated when switching the switch intake system and / or be influenced, such that in the vehicle interior in each switching state of Schaltsauganlage a desired Hearing impression arises.

Weitere wichtige Merkmale und Vorteile der erfindungsgemäßen Vorrichtung ergeben sich aus den Unteransprüchen, aus den Zeichnungen und aus der zugehörigen Figurenbeschreibung anhand der Zeichnungen. Other important features and advantages of the invention Device emerge from the subclaims, from the Drawings and from the associated description of the figures the drawings.

Bevorzugte Ausführungsbeispiele der Erfindung sind in den Zeichnungen dargestellt und werden in der nachfolgenden Beschreibung näher erläutert.Preferred embodiments of the invention are in the Drawings are shown in the description below explained in more detail.

Es zeigen, jeweils schematisch,

Fig. 1
eine Prinzipdarstellung eines Ansaugtraktes einer Brennkraftmaschine,
Fig. 2
eine Prinzipdarstellung einer ersten Ausführungsform einer Schallübertragungsvorrichtung nach der Erfindung,
Fig. 3
eine Prinzipdarstellung einer zweiten Ausführungsform der erfindungsgemäßen Schallübertragungsvorrichtung,
Fig. 4
eine Prinzipdarstellung einer besonderen Ausgestaltung der Ausführungsform gemäß Fig. 2 und
Fig. 5
eine Prinzipdarstellung einer besonderen Ausgestaltung der Ausführungsform gemäß Fig. 3.
Show, in each case schematically,
Fig. 1
a schematic diagram of an intake tract of an internal combustion engine,
Fig. 2
a schematic diagram of a first embodiment of a sound transmission device according to the invention,
Fig. 3
a schematic diagram of a second embodiment of the sound transmission device according to the invention,
Fig. 4
a schematic diagram of a particular embodiment of the embodiment of FIG. 2 and
Fig. 5
a schematic diagram of a particular embodiment of the embodiment of FIG. 3rd

Entsprechend Fig. 1 weist ein Luftansaugtrakt 1 einer Brennkraftmaschine 2 ein Luftfilter 3 auf, in dem ein Filterelement 4 eine Rohseite 5 von einer Reinseite 6 trennt. Eine Verbindungsleitung 7, die beispielsweise durch ein Rohr gebildet sein kann, verbindet das Luftfilter 3 mit einem Luftsammler 8, der die angesaugte Frischluft auf einzelne Zylinder 9 der Brennkraftmaschine 2 verteilt. Innerhalb dieses Luftansaugtraktes 1 ist während des Betriebs der Brennkraftmaschine 2 ein Schallfeld ausgebildet, dessen Klang- oder Geräuschcharakteristik mit einer von der Brennkraftmaschine 2 erbrachten Leistung, insbesondere mit deren Drehzahl, korreliert. Um den Fahrzeuginsassen, vor allem dem Fahrzeugführer, ein akustisches Feedback der Brennkraftmaschinentätigkeit zu liefern, verfügt das im übrigen nicht dargestellte Kraftfahrzeug, das insbesondere ein Personenkraftwagen, vorzugsweise ein Sportwagen ist, über eine in den Fig. 2 und 3 dargestellte Schallübertragungsvorrichtung 10.1, an air intake tract 1 of an internal combustion engine 2 an air filter 3, in which a filter element 4 a raw side 5 of a clean side 6 separates. A Connecting line 7, for example, formed by a tube can connect the air filter 3 with a Air collector 8, the fresh air sucked on individual Cylinder 9 of the internal combustion engine 2 distributed. Within this Air intake tract 1 is during operation of the internal combustion engine 2 a sound field is formed whose sound or noise characteristic with one of the internal combustion engine 2 performed power, in particular with their speed, correlated. To the vehicle occupants, especially the Driver, an acoustic feedback of the engine activity by the way, that does not work illustrated motor vehicle, in particular a passenger car, preferably a sports car is, about an in Figs. 2 and 3 illustrated sound transmission device 10th

Entsprechend Fig. 1 wird eine Eingangsseite 11 dieser Schallübertragungsvorrichtung 10 vorzugsweise an die Verbindungsleitung 7 des Ansaugtraktes 1 angeschlossen. Ebenso sind Ausführungsformen möglich, bei denen die Eingangsseite 11' mit der Reinseite 6 des Luftfilters 3 verbunden ist. Bei manchen Fahrzeugtypen kann es vorteilhaft sein, die Eingangsseite 11'' an den Luftsammler 8 anzuschließen. Bei einer anderen Ausführungsform kann die Eingangsseite 11''' mit der Rohseite 5 des Luftfilters 3 verbunden sein. Ebenso ist es möglich, die Eingangsseite 11'''' stromauf des Luftfilters 3 an die Rohseite des Ansaugtrakts 1 anzuschließen. Bei den Ausführungsformen, bei welchen die Schallübertragungsvorrichtung 10 mit der Reinseite des Luftansaugtrakts 1 kommuniziert, ist darauf zu achten, dass die Schallübertragungsvorrichtung 10 nach außen luftdicht ausgebildet ist.According to FIG. 1, an input side 11 of this sound transmission device 10 preferably to the connecting line 7 of the intake tract 1 connected. Likewise are Embodiments possible in which the input side 11 ' is connected to the clean side 6 of the air filter 3. at For some types of vehicles, it may be beneficial to the input side 11 '' to connect to the air collector 8. At a In another embodiment, the input side 11 '' 'with be connected to the raw side 5 of the air filter 3. Likewise is it is possible, the input side 11 '' '' upstream of the air filter 3 to connect to the raw side of the intake 1. at the embodiments in which the sound transmission device 10 communicates with the clean side of the air intake tract 1, Care must be taken to ensure that the sound transmission device 10 is formed airtight to the outside.

Entsprechend Fig. 2 besitzt die erfindungsgemäße Schallübertragungsvorrichtung 10 beispielsweise drei hohle Übertragungsleitungen 12, die hier relativ nahe beieinander an die Verbindungsleitung 7 angeschlossen sind. Ebenso ist es möglich, dass die verschiedenen Übertragungsleitungen 12 an unterschiedlichen Stellen an den Ansaugtrakt 1 angeschlossen sind. Hierzu wird auf die oben, beispielhaft aufgezählten Anschlussmöglichkeiten der Eingangsseite 11 bis 11'''' verwiesen.According to FIG. 2, the sound transmission device according to the invention has For example, three hollow transmission lines 12, here relatively close to each other Connecting line 7 are connected. It is also possible that the different transmission lines 12 at different Positions connected to the intake 1 are. For this purpose, reference is made to the above, by way of example Connection possibilities of the input side 11 to 11 '' '' referenced.

Jede Übertragungsleitung 12 führt zu einer Resonatorkammer 13. Jede Resonatorkammer 13 ist eingangsseitig über eine Membran 14 von der zugehörigen Übertragungsleitung 12 gasdicht getrennt und ausgangsseitig mit einem Austrittsrohr 15 verbunden. In der hier dargestellten Ausführungsform sind alle Austrittsrohre 15 an einen gemeinsamen Sammler 16 angeschlossen, der für sämtliche Resonatorkammern 13 ein gemeinsames Schallaustrittsrohr 17 aufweist, das hier mit einem trichterförmigen Austritt 18 ausgestattet ist. Dieser Austritt 18 ist frontal vor einer Trennwand 19, der sogenannten "Spritzwand", positioniert, die einen Motorraum 20 von einem Fahrzeuginnenraum 21 trennt. Dementsprechend erfolgt die Schallübertragung durch diese Trennwand 19 hindurch. Ebenso ist es möglich, den Schallaustritt 18 in der Trennwand 19 auszubilden bzw. das Schallaustrittsrohr 17 durch die Trennwand 19 hindurchzuführen, um so den Schallaustritt 18 direkt im Fahrzeuginnenraum 21 anzuordnen.Each transmission line 12 leads to a resonator chamber 13. Each resonator chamber 13 is on the input side via a Membrane 14 gas-tight from the associated transmission line 12 separated and output side with an outlet pipe 15th connected. In the embodiment shown here are all outlet pipes 15 are connected to a common collector 16, the one for all resonator 13 a common Sound outlet tube 17 has, here with a funnel-shaped outlet 18 is equipped. This exit 18 is frontal in front of a partition wall 19, the so-called "Bulkhead", which positions an engine compartment 20 from one Vehicle interior 21 separates. Accordingly, the Sound transmission through this partition 19 therethrough. As well it is possible, the sound outlet 18 in the partition wall 19th form or the sound outlet tube 17 through the partition 19 pass, so the sound outlet 18 directly to arrange in the vehicle interior 21.

Jede Übertragungsleitung 12 bildet zusammen mit der zugehörigen Resonatorkammer 13 und der zugehörigen Membran 14 ein Schallübertragungssystem, so dass bei der in Fig. 2 dargestellten Ausführungsform drei solche Schallübertragungssysteme vorliegen, die gleichzeitig oder parallel wirksam sein können. Ebenso sind Ausführungsformen mit mehr oder weniger Schallübertragungssystemen möglich. Die einzelnen Schallübertragungssysteme sind vorzugsweise hinsichtlich unterschiedlicher Frequenzen abgestimmt, um so eine gewünschte Breitbandwirkung für die Schallübertragungsvorrichtung 10 zu realisieren. Wenigstens zwei der Resonatorkammern 13 sind demnach hinsichtlich ihrer Frequenzabstimmung voneinander unterschiedlich ausgebildet. Beispielsweise unterscheiden sie sich hinsichtlich ihres Volumens. Darüber hinaus können auch die einzelnen Membranen 14 hinsichtlich ihrer Frequenzabstimmung voneinander unterschiedlich ausgestaltet sein. Beispielsweise können die einzelnen Membranen sich hinsichtlich ihres Durchmessers voneinander unterscheiden. Ebenso können unterschiedliche Materialien, unterschiedliche Dicken und Massebelegungen gewählt werden. Des weiteren können sich auch die einzelnen Übertragungsleitungen 12 voneinander unterscheiden, z.B. hinsichtlich ihres Durchmessers und/oder hinsichtlich ihrer Länge.Each transmission line 12 forms together with the associated Resonator chamber 13 and the associated membrane 14 a Sound transmission system, so that in the illustrated in Fig. 2 Embodiment three such sound transmission systems which may be active simultaneously or in parallel can. Likewise, embodiments are more or less Sound transmission systems possible. The individual sound transmission systems are preferably different in terms of Frequencies tuned to a desired Broadband effect for the sound transmission device 10 to realize. At least two of the resonator chambers 13 are therefore with regard to their frequency tuning each other designed differently. For example, differentiate they are in terms of their volume. In addition, you can also the individual membranes 14 with regard to their frequency tuning be designed differently from each other. For example, the individual membranes can with regard to differ in diameter from each other. As well can use different materials, different thicknesses and mass assignments are selected. Furthermore, they can also the individual transmission lines 12 differ from each other, e.g. in terms of their diameter and / or in terms of their length.

Von besonderem Vorteil ist eine Ausführungsform, bei der wenigstens eine der Übertragungsleitungen 12 als sogenannter "λ/2-Resonator" ausgebildet ist. Wenn mehrere Übertragungsleitungen 12 als λ/2-Resonatoren ausgebildet sind, können diese hinsichtlich unterschiedlicher Resonanzfrequenzen ausgebildet sein.Of particular advantage is an embodiment in which at least one of the transmission lines 12 as so-called "λ / 2 resonator" is formed. If several transmission lines 12 are formed as λ / 2 resonators can these are formed with respect to different resonance frequencies be.

Fig. 2 zeigt eine bevorzugte Ausführungsform, bei der die erfindungsgemäße Schallübertragungsvorrichtung 10 Schaltmittel 22 aufweist, mit denen die einzelnen Schallübertragungssysteme bzw. die einzelnen Resonatorkammern 13 aktivierbar und deaktivierbar sind. Die Schaltmittel 22 weisen dabei in jeder Übertragungsleitung 12 eine Klappe 23 auf, die jeweils beispielhaft um eine senkrecht zur Zeichnungsebene verlaufende Schwenkachse 24 schwenkverstellbar ist. Des weiteren sind Stellglieder 25 vorgesehen, die jeweils eine der Klappen 23 zum Verstellen antreiben. Die einzelnen Stellglieder 25 sind dabei über entsprechende Steuerleitungen 26 mit einer Steuerung 27 verbunden, welche die einzelnen Stellglieder 25 in Abhängigkeit vorbestimmter Parameter betätigt.Fig. 2 shows a preferred embodiment in which the Sound transmission device 10 according to the invention switching means 22, with which the individual sound transmission systems or the individual resonator chambers 13 can be activated and can be deactivated. The switching means 22 have in each transmission line 12, a flap 23, respectively for example, a perpendicular to the plane of the drawing Swivel axis 24 is pivotally adjustable. Furthermore Actuators 25 are provided, each one of the flaps 23 for adjustment. The individual actuators 25 are via corresponding control lines 26 with a Control 27 connected to the individual actuators 25 operated in response to predetermined parameters.

Entsprechend Fig. 3 ist bei einer anderen Ausführungsform der erfindungsgemäßen Schallübertragungsvorrichtung 10 jede Resonatorkammer 13 über eine separate Anschlussleitung 28 an eine gemeinsame Übertragungsleitung 29 angeschlossen, die ihrerseits mit ihrer Eingangsseite 11 an den Ansaugtrakt 1, hier an die Luftleitung 7, angeschlossen ist. Wie hier dargestellt, können die einzelnen Anschlussleitungen 28 an unterschiedlichen Stellen 30 und 31 an die gemeinsame Übertragungsleitung 29 angeschlossen sein. Ebenso ist es möglich, dass alle Anschlussleitungen 28 etwa an derselben Stelle von der gemeinsamen Übertragungsleitung 29 abzweigen bzw. ausgehen.According to Fig. 3 is in another embodiment the sound transmission device 10 according to the invention each Resonator chamber 13 via a separate connecting line 28 at a common transmission line 29 connected to the in turn with its input side 11 to the intake tract 1, here to the air line 7, is connected. As shown here, can the individual connecting lines 28 at different Set 30 and 31 to the common transmission line 29 connected. It is also possible that all connecting lines 28 approximately at the same point of the common transmission line 29 branch off or go out.

Die einzelnen Anschlussleitungen 28 können sich voneinander unterscheiden, vorzugsweise hinsichtlich ihres Durchmessers und/oder ihrer Länge. Auch die Anschlussleitungen 28 können als λ/2-Resonator ausgebildet sein.The individual connection lines 28 may be different from each other differ, preferably in terms of their diameter and / or their length. Also, the connection lines 28 can be formed as a λ / 2 resonator.

Auch bei der in Fig. 3 gezeigten Ausführungsform sind die einzelnen Anschlussleitungen 28 bzw. die damit gekoppelten Resonatorkammern 13 schaltbar ausgestaltet, das heißt, es sind Schaltmittel 22 mit Klappe 23 und Stellglied 25 vorgesehen.Also in the embodiment shown in Fig. 3 are the individual connecting lines 28 and the coupled thereto Resonator chambers 13 designed switchable, that is, it switching means 22 with flap 23 and actuator 25 are provided.

Durch die-Betätigung der Stellglieder 25 können die Klappen 23 verschwenkt werden, um den Querschnitt der Übertragungsleitung 12 (im Beispiel gemäß Fig. 2) oder der Anschlussleitung 28 (im Beispiel gemäß Fig. 3) zum Aktivieren der jeweiligen Resonatorkammer 13 zu öffnen und zum Deaktivieren der jeweiligen Resonatorkammer 13 zu schließen. Dementsprechend sind in Fig. 2 die obere und die mittlere Resonatorkammer 13 aktiviert, während die untere Resonatorkammer 13 deaktiviert ist. Im Unterschied dazu sind in der Ausführungsform gemäß Fig. 3 die obere und die untere Resonatorkammer 13 aktiviert, während die mittlere Resonatorkammer 13 deaktiviert ist.By the actuation of the actuators 25, the flaps 23 are pivoted to the cross section of the transmission line 12 (in the example of FIG. 2) or the connecting line 28 (in the example of FIG. 3) for activating the respective Resonator chamber 13 to open and to disable the close each resonator chamber 13. Accordingly in FIG. 2, the upper and the middle resonator chambers 13 while the lower resonator chamber 13 is deactivated is. In contrast, in the embodiment according to FIG. 3 activates the upper and lower resonator chambers 13, FIG. while the central resonator chamber 13 is deactivated is.

Die in Fig. 3 gezeigten Resonatorkammern 13 unterscheiden sich von denjenigen der Fig. 2 durch die Anordnung der Membranen 14. In Fig. 3 sind die Membranen so innerhalb der Resonatorkammern 13 angeordnet, dass die Membran 14 dort einen eingangsseitigen ersten Raum 32 von einem ausgangsseitigen zweiten Raum 33 trennt. Dabei bildet der jeweilige erste Raum 32 einen sogenannten "Helmholtz-Resonator". Wie bereits oben zu Fig. 2 erläutert, können die einzelnen Resonatorkammern 13 hinsichtlich ihrer Frequenzabstimmung unterschiedlich ausgestaltet sein, wobei sich die einzelnen Schallübertragungssysteme hinsichtlich der Ausgestaltung der Anschlussleitungen 28, sowie der Volumina der Resonatorkammern 13 voneinander unterscheiden können. Ebenso können die Membranen 14 unterschiedlich ausgebildet sein. Bei der Ausführungsform gemäß Fig. 3 können sich unterschiedliche Frequenzabstimmungen auch durch Variationen der Größe des ersten Raums 32 und/oder des zweiten Raums 33 ergeben.The resonator chambers 13 shown in FIG. 3 differ from those of Fig. 2 by the arrangement of the membranes 14. In Fig. 3, the membranes are so within the resonator chambers 13 arranged that the membrane 14 there a input-side first space 32 from an output side second room 33 separates. The respective first forms Room 32 is a so-called "Helmholtz resonator". As already explained above to Fig. 2, the individual resonator chambers 13 different in terms of their frequency tuning be configured, with the individual sound transmission systems with regard to the configuration of the connection lines 28, as well as the volumes of the resonator chambers 13 can differ from each other. Likewise, the membranes can 14 may be formed differently. In the embodiment According to FIG. 3, different frequency adjustments can occur also by variations of the size of the first one Room 32 and / or the second room 33 result.

Um die Schallabstrahlcharakteristik der Resonatorkammern 13 zu verändern, kann beispielsweise in die zweite Kammer 33 ein Dämpfungskörper 34 eingesetzt sein, der beispielsweise aus einem offenporigen Schaumstoff gebildet ist. Ebenso ist es möglich, ein derartiges Dämpfungsmaterial auch im jeweiligen Austrittsrohr 15 oder auch im ersten Raum 32 oder in der Anschlussleitung 28 unterzubringen. Beispielhaft ist dieser Dämpfungskörper 34 in Fig. 3 nur in das untere Schallübertragungssystem eingesetzt. Ebenso kann ein derartiges oder ein anderes Dämpfungsmaterial auch in den anderen Schallübertragungssystemen angeordnet werden. To the Schallabstrahlcharakteristik the resonator 13 can change, for example, in the second chamber 33rd a damping body 34 may be used, for example is formed of an open-cell foam. Likewise is It is possible, such a damping material in the respective Exhaust pipe 15 or in the first room 32 or in accommodate the connecting line 28. Exemplary this damping body 34 in Fig. 3 only in the lower sound transmission system used. Likewise, such a or another damping material in the other Sound transmission systems are arranged.

Ebenso beispielhaft ist im Schallaustrittsrohr 17 des oberen Schallübertragungssystems eine Blende 35 angeordnet, deren Blendenquerschnitt kleiner ist als der Rohrquerschnitt des Austrittsrohrs 15. Durch die Einstellung des Blendenquerschnitts kann ebenfalls das akustische Verhalten des Resonanzsystems variiert werden.Also exemplary is the sound outlet tube 17 of the upper Sound transmission system arranged a diaphragm 35, whose Aperture cross section is smaller than the tube cross section of the Outlet pipe 15. By adjusting the aperture cross section can also be the acoustic behavior of the resonance system be varied.

Im Unterschied zur Ausführungsform gemäß Fig. 2 ist bei der Variante gemäß Fig. 3 kein gemeinsamer Sammler 16 vorgesehen, vielmehr weist jedes Austrittsrohr 15 einen eigenen Schallaustritt 18 auf; diese sind jeweils nahe der Trennwand 19 positioniert. Auch hier ist es möglich, die Schallaustritte 18 in oder jenseits der Trennwand 19 anzuordnen.In contrast to the embodiment of FIG. 2 is in the Variant according to FIG. 3 no common collector 16 is provided, Rather, each outlet pipe 15 has its own Sound exit 18 on; These are each near the partition 19 positioned. Again, it is possible the sound leaks 18 in or beyond the partition 19 to order.

Da die erfindungsgemäße Schallübertragungsvorrichtung 10 zur Verstärkung unterschiedlicher Frequenzen bzw. Frequenzbänder ausgebildet ist, ergeben sich relativ vielfältige Gestaltungsmöglichkeiten für die Generierung und Modulation eines erwünschten Motorsounds im Fahrzeuginnenraum 21. Von besonderem Interesse ist dabei die Ausführungsform mit schaltbaren Resonatorkammern 13. Hierbei kann die Steuerung 27 die Schaltmittel 22 zum Beispiel in Abhängigkeit des aktuellen Betriebszustands der Brennkraftmaschine 2 betätigen. Dabei ist es möglich, die Resonatorkammern 13 einzeln zu aktivieren bzw. zu deaktivieren. Insbesondere können zwei oder mehr Resonatorkammern parallel aktiviert werden. Ebenso können alle Resonatorkammern aktiviert oder deaktiviert werden. Dabei ist es grundsätzlich möglich, zwei von mehreren Schallübertragungssystemen hinsichtlich derselben Frequenz auszulegen, wobei in einem ersten Betriebspunkt nur eines dieser Schallübertragungssysteme aktiv ist, während in einem zweiten Betriebspunkt beide Schallübertragungssysteme parallel aktiviert werden, um die zugeordnete Frequenz nochmals zu verstärken.Since the sound transmission device 10 according to the invention for Amplification of different frequencies or frequency bands is formed, resulting in relatively diverse design options for the generation and modulation of a desired engine sounds in the vehicle interior 21. Of particular Interest is the embodiment with switchable Resonator chambers 13. In this case, the controller 27 the Switching means 22, for example, depending on the current Operate state of the internal combustion engine 2. there it is possible to activate the resonator chambers 13 individually or disable. In particular, two or more Resonator chambers are activated in parallel. Likewise all resonator chambers are activated or deactivated. there It is basically possible to use two of several sound transmission systems to be interpreted in terms of the same frequency, wherein in a first operating point only one of these Sound transmission systems is active while in a second Operating point both sound transmission systems in parallel to activate the assigned frequency again strengthen.

Bei einer Brennkraftmaschine 2, die mit einer Schaltsauganlage ausgestattet ist, kommt es drehzahlabhängig zu Schaltvorgängen, mit denen zur Verbesserung des Ladeverhaltens die Saugrohrlängen verändert werden. Mit diesen Schaltvorgängen geht regelmäßig eine Veränderung der von der Brennkraftmaschine 2 abgestrahlten Schallcharakteristik einher. Um nachteilige Auswirkungen derartiger Schaltvorgänge für die Geräuschentwicklung im Fahrzeuginnenraum 21 zu reduzieren, kann die Betätigung der Schaltmittel 22 bei einer bevorzugten Ausführungsform in Abhängigkeit der Schaltzustände dieser Schaltsauganlage durchgeführt werden.In an internal combustion engine 2, with a Schaltsauganlage equipped, it depends on the speed depending on switching operations, with which to improve the charging behavior the Suction tube lengths are changed. With these switching operations regularly goes a change of the internal combustion engine 2 radiated sound characteristic associated. To disadvantageous Effects of such switching operations for noise in the vehicle interior 21 to reduce can the operation of the switching means 22 in a preferred Embodiment depending on the switching states of this Switch suction are carried out.

Bei der Ausführungsform gemäß Fig. 3 sind die Anschlussleitungen 28 des oberen und des unteren Schallübertragungssystems so an die gemeinsame Übertragungsleitung 29 angeschlossen, dass sie im wesentlichen senkrecht in diese einmünden. Im Unterschied dazu stellt die Anschlussleitung 28 des mittleren Schallübertragungssystems eine koaxiale Verlängerung der gemeinsamen Übertragungsleitung 29 dar. Grundsätzlich sind jedoch auch andere, insbesondere beliebige, Anschlusswinkel möglich. In the embodiment according to FIG. 3, the connection lines are 28 of the upper and lower sound transmission system so connected to the common transmission line 29, that they lead substantially perpendicularly in this. In contrast, the connecting line 28 the middle acoustic transmission system a coaxial extension the common transmission line 29. Basically However, there are others, especially any, Connection angle possible.

Durch den senkrechten Anschluss können die Anschlussleitungen 28 des oberen und des unteren Schallübertragungssystems jeweils als λ/2-Resonator ausgebildet werden. Durch die fluchtende Anordnung der Anschlussleitung 28 des mittleren Schallübertragungssystems, kann diese Anschlussleitung 28 zusammen mit der gemeinsamen Übertragungsleitung 29 ebenfalls einen λ/2-Resonator ausbilden.Through the vertical connection, the connecting cables 28 of the upper and lower sound transmission system each formed as a λ / 2 resonator. By the aligned arrangement of the connecting line 28 of the middle Sound transmission system, this connection line 28 together with the common transmission line 29 as well form a λ / 2 resonator.

Entsprechend Fig. 4 kann bei einer Weiterbildung der Vorrichtung 10 gemäß Fig. 2 der Sammler 16 bei einer besonderen Ausführungsform mit mehreren, hier zwei, gemeinsamen Austrittsrohren 17' und 17" ausgestattet sein, die sich hinsichtlich ihrer Abmessungen voneinander unterscheiden. Auch durch diese Maßnahme kann das Spektrum der abgestrahlten Schallfrequenzen beeinflußt werden.According to Fig. 4, in a development of the device 10 of FIG. 2, the collector 16 in a particular Embodiment with several, here two, common outlet tubes 17 'and 17 "equipped with regard to their dimensions differ from each other. Also By this measure, the spectrum of the radiated Sound frequencies are affected.

Gemäß Fig. 5 kann bei einer Weiterbildung der Vorrichtung 10 gemäß Fig. 3 zumindest eine der Resonatorkammern 13 mit mehreren, hier drei, Austrittsrohren 15', 15'' und 15''' ausgestattet sein, die sich hinsichtlich ihrer Abmessungen voneinander unterscheiden. Auch hier kann innerhalb einer Resonatorkammer 13 die Charakteristik des abgestrahlten Schalls beeinflußt werden. Insbesondere ergibt sich durch die Anordnung mehrerer Austrittsrohre 15 bzw. 17 (vgl. Fig. 4) eine erhöhte Breitbandigkeit des abgestrahlten Schalls.According to FIG. 5, in a development of the device 10 3 at least one of the resonator chambers 13 with several, here three, outlet pipes 15 ', 15' 'and 15' '' equipped be different in terms of their dimensions differ. Again, within a resonator chamber 13 the characteristic of the radiated sound to be influenced. In particular, results from the arrangement a plurality of outlet pipes 15 and 17 (see Fig. 4) a increased broadband of the radiated sound.

Claims (17)

  1. A device for targeted noise transmission from an intake tract (1) of an internal combustion engine (2) of a motor vehicle to an interior space (21) of the motor vehicle, having at least one hollow transmission line (12; 29), which is connected on the input side to communicate with the intake tract (1) and to which at least one resonator chamber (13) is connected, which emits the noise to the vehicle interior space (21),
    characterized in that
    multiple resonator chambers (13), which act in parallel, are provided, at least two of which differ from one another in regard to their frequency tuning.
  2. The device according to Claim 1,
    characterized in that
    each resonator chamber (13) is connected to the intake tract (1) via a separate transmission line (12).
  3. The device according to Claim 1,
    characterized in that
    all resonator chambers (13) are connected to the intake tract (1) via a joint transmission line (29) in such a way that each resonator chamber (13) is connected via a separate connection line (28) to the shared transmission line (29).
  4. The device according to Claim 3,
    characterized in that
    the connection lines (28) are connected to different points (30, 31) on the joint transmission line (29).
  5. The device according to one of Claims 1 through 4,
    characterized in that
    the noise transmission paths from the intake tract (1) to the resonator chambers (13) are implemented as half-wave resonators or have a section implemented as a half-wave resonator, at least two of the half-wave resonators differing from one another in regard to their frequency tuning.
  6. The device according to at least Claims 3 and 5,
    characterized in that
    at least one of the connection lines (28) is implemented as a half-wave resonator.
  7. The device according to at least Claims 3 and 5,
    characterized in that
    at least one of the connection lines (28) is implemented together with the joint transmission line (29) as a half-wave resonator.
  8. The device according to one of Claims 1 through 7,
    characterized in that
    each resonator chamber (13) is assigned a membrane (14).
  9. The device according to Claim 8,
    characterized in that
    at least one of the membranes (14) separates an input-side first space (32) from an output-side second space (33) in the associated resonator chamber (13).
  10. The device according to Claim 8 or 9,
    characterized in that
    at least two of the membranes (14) differ from one another in regard to their frequency tuning.
  11. The device according to one of Claims 1 to 10,
    characterized in that
    the resonator chambers (13) are connected on the output side to a joint header (16), via which the resonator chambers (13) emit the noise to the vehicle interior space (21).
  12. The device according to one of Claims 1 to 11,
    characterized in that
    switching means (22) are provided, using which at least one of the resonator chambers (13) may be activated and deactivated.
  13. The device according to Claim 12,
    characterized in that
    the switching means (22) for switching a resonator chamber (13) have a flap (23), which opens the cross-section of the associated transmission line (12) or connection line (28) for activation and closes it for deactivation.
  14. The device according to Claim 12 or 13,
    characterized in that
    the switching means (22) switch on, switch off, and connect the resonator chambers (13) as a function of the operating state of the internal combustion engine (2).
  15. The device according to one of Claims 12 through 14,
    characterized in that
    the switching means (22), in an internal combustion engine (2) which is equipped with a active intake system, switch on, switch off, and connect the resonator chambers (13) as a function of the switching state of the active intake system.
  16. The device according to one of Claims 1 through 15,
    characterized in that
    at least one of the resonator chambers (13) has multiple outlet pipes (15', 15", 15"') on the output side having different dimensions.
  17. The device according to at least Claim 11,
    characterized in that
    the header (16) has multiple joint outlet pipes (17', 17") having different dimensions.
EP02724120A 2001-03-23 2002-03-22 Sound transmission device for a motor vehicle Expired - Lifetime EP1371056B2 (en)

Applications Claiming Priority (3)

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DE10114397A DE10114397A1 (en) 2001-03-23 2001-03-23 Sound transmission device for motor vehicle has several resonator chambers working in parallel, of which at least two are different from each other in terms of their frequency tuning
DE10114397 2001-03-23
PCT/DE2002/001045 WO2002077969A1 (en) 2001-03-23 2002-03-22 Sound transmission device for a motor vehicle

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EP1371056B1 true EP1371056B1 (en) 2005-08-03
EP1371056B2 EP1371056B2 (en) 2008-06-18

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US (1) US6848410B2 (en)
EP (1) EP1371056B2 (en)
DE (2) DE10114397A1 (en)
ES (1) ES2246397T3 (en)
WO (1) WO2002077969A1 (en)

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EP1371056A1 (en) 2003-12-17
US6848410B2 (en) 2005-02-01
ES2246397T3 (en) 2006-02-16
WO2002077969A1 (en) 2002-10-03
DE10114397A1 (en) 2002-09-26
DE50203827D1 (en) 2005-09-08
US20040094112A1 (en) 2004-05-20

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