法国专利FR3050306A1 SOUND GENERATING DEVICE ON A VEHICLE FOR REDUCING OR GENERATING THE SOUND OF AN ENGINE, AND EXHAUST

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专利摘要:
A sound generating device (14) is disclosed on a vehicle for reducing or generating the sound of an engine, particularly for an exhaust system of an internal combustion engine of a vehicle. The sound generating device (14) comprises a housing (21) in which a loudspeaker (30) is screwed so as to subdivide an interior space of the housing (21) into two partially sealed partial chambers (32, 34). to gases. Thanks to the use of welded threaded bolts, the gas tightness is ensured at the screwed connection. For the gas-tightness of the loudspeaker (30) with respect to the housing (21), a sealing edge is provided, and for positioning the loudspeaker (30) in the interior of the housing (21) a support edge is provided. The abutting edge and the sealing edge are spaced from each other in the direction of a central axis (36) of the loudspeaker. In addition, there is disclosed an exhaust system of an internal combustion engine of a vehicle having a sound generating device (14).
公开号:FR3050306A1
申请号:FR1753319
申请日:2017-04-14
公开日:2017-10-20
发明作者:Hannes Steinkilberg；Juergen Klement
申请人:Faurecia Emissions Control Technologies Germany GmbH；
IPC主号:

专利说明:

Sound generating device on a vehicle for reducing or generating the sound of an engine, and exhaust system
The present invention relates to a sound generating device on a vehicle for reducing or generating the sound of an engine. In particular, the sound generating device is provided on or in an exhaust system of an internal combustion engine of a vehicle. The sound generating device according to the invention comprises a housing in which a loudspeaker is mounted so as to subdivide an internal space of the housing into two partial chambers sealed with respect to one another in a gastight manner. .
In addition, the present invention relates to an exhaust system of an internal combustion engine of a vehicle comprising a sound generating device of the type mentioned in the introduction.
In the state of the art, the sound generating devices for exhaust systems are used to reduce the noise emissions of an exhaust system of an internal combustion engine or to artificially generate an engine sound. longed for. In this case, the sound generated by the sound generator device serves as its antagonist with respect to the sound generated by the exhaust gas flow. For this purpose, the sound generating device generates sound at one or more frequencies.
This sound is out of phase with the sound generated by the exhaust gas flow so as to attenuate unwanted sound emissions or at least to suppress them at certain frequencies.
A sound generating device of the type mentioned in the introduction is known for example from DE 10 2012 201 725 A1. In this case, it is a question of making an active silencer for an exhaust system at comparatively low costs.
Typically, a sound generating device includes a speaker that subdivides the interior space of the housing into two partial chambers. A first partial chamber is on that side of the speaker to which the sound generated by the sound generating device is to propagate. A second partial chamber is usually arranged on the opposite side of the loudspeaker. The excitation mechanism for the speaker diaphragm is also positioned in this second partial chamber and generally includes the associated electrical connection contacts. The two partial chambers are thus separated, inter alia, by the loudspeaker membrane.
Once the first partial chamber is connected to the ducts leading the exhaust gases of the exhaust system, the gas-tightness of the two partial chambers serves to seal the second partial chamber with respect to the flow of exhaust gas and therefore the connection contacts and the electrical assembly of the loudspeaker. This is necessary to protect the contacts and lines on the rear side of the speaker against corrosion due to chemically aggressive exhaust.
This sealing must be ensured throughout the lifetime of the sound generating device and therefore the exhaust system. Fixing and sealing the loudspeaker in the housing therefore play a very important role. The objective underlying the present invention is therefore to provide a sound generating device for an exhaust system of an internal combustion engine of a vehicle in which the sealing of the loudspeaker relative to the housing is improved. In particular, it seeks to achieve a particularly durable seal. At the same time, we seek to achieve a sound generating device that is simple and economical to manufacture.
In addition, it must provide sufficient rigidity and low structural height. The objective is achieved by a sound generating device of the mentioned type, in which a sealing edge is provided for gas sealing of the loudspeaker relative to the housing, and a bearing edge for the axial positioning of the loudspeaker in the interior space of the housing, that is towards the mid-axis of the loudspeaker, and the support edge and the sealing edge are spaced apart from one of the other axially and also radially. In this case, the sealing edge and the support edge may exist either on the loudspeaker, in particular on a loudspeaker basket, or on the housing. The support edge and the sealing edge are formed for example in the form of bearing surfaces or sealing surfaces or in the form of support edges or sealing edges. In this case, in particular the bearing edge protrudes with respect to the sealing edge. Thanks to the structural separation of the support edge and the sealing edge, it is possible to ensure a durable seal of the loudspeaker in the housing and therefore a long life of the sound generating device, because the seal does not have a support function. The invention also provides a sound generating device according to the preamble of claim 1 which is characterized in that the loudspeaker is fixed on a central portion of the housing and that the largest inner diameter of a partial chamber of the rear side speaker is at least 25% larger than the outside diameter of the speaker. This ensures that the sound generator device is of a very flat structure in the longitudinal direction, because in particular the longitudinal direction is difficult with regard to the bulk.
The sound generating device according to the invention can be mounted on the exhaust system, and optionally the sound can be introduced via a tubular conduit into the exhaust duct, or the sound generator device can be mounted on the vehicle separately from the exhaust system and may not transfer the sound to the environment via the exhaust system. Preferably, the loudspeaker is attached to a central portion of the housing.
According to a variant, the central housing part comprises an annular flange portion on which the support edge and the gasket and the threaded bolts are arranged. Inside the annular flange portion is provided an opening for passing the sound generated by the speaker. Preferably, the housing central portion is configured at least locally in the form of a funnel or frustoconical shape at the outer periphery of the annular portion. This results in a sound generating device with a simple structure and a long life.
Advantageously, the flange portion comprises an opening edge bent axially in the area of the opening. Thus, the flange portion and therefore the entire housing are stiffened. Similarly, it is possible to stiffen the housing by ribs or by thickening in the thickness of the wall.
In one configuration, the housing center portion is connected to a housing top on one side and a housing bottom on an opposite side. This three-part housing structure provides a simple mounting possibility of the sound generating device.
Alternatively, the lower housing portion includes a side outlet of sound, through which it is connected to a duct leading exhaust. Via this sound output, the sound generator device is connected to the ducts leading the exhaust system exhaust gas. Thus, the sound generated by the sound generating device can be superimposed on the sound generated by the exhaust gas flow.
According to one embodiment, the central portion of the housing penetrates into the interior of the housing and forms part of a partition wall between the partial chambers. The central housing part may be formed as a sheet metal part.
Preferably, the seal and the abutment edge bear against a common flat counter surface. The flat counter-surface can be made either on the housing, in particular on the central part of the housing, or on the loudspeaker, in particular on the loudspeaker basket. Thus, we obtain a simple structure of the sound generating device.
To have an even more compact structure in the longitudinal direction and to be able to realize at the same time a large volume for the partial chamber of the rear side of the speaker, the transition from the housing center portion of the outer diameter to the diameter of the surface of the support goes through a frustoconical portion of the central portion of the housing. Thus, the speaker is partially in the recess made by the frustoconical portion and is therefore closer to the output of his.
According to one embodiment, the loudspeaker bears against the housing via the support edge. Preferably, it rests directly against the housing. Thus, it ensures a precise and simple positioning of the speaker on the housing. When pressing directly against the housing, omit all intermediate parts.
In addition, a seal may be provided between the sealing edge and the housing, and the distance between the sealing edge and the support edge may determine the distance between the sealing edge and the housing, the distance between the sealing edge and the support edge being chosen so that the seal is compressed in a defined manner. The defined compression of the seal is maintained throughout the service life. In addition, the compression of the seal can not be influenced by a more or less strong tightening of the screwed connection of the loudspeaker in the housing. Thus, the compression of the seal is constantly the same. This ensures a long service life of the seal and an always optimal sealing effect. In addition, a possible shrinkage of the seal or a variation of the elasticity of the seal material does not influence the screwed connection of the loudspeaker with the housing.
According to a development, the support edge and the sealing edge are made on a speaker basket or on a housing part, preferably in one piece. For example, the loudspeaker basket and the housing part may be configured as sheet metal parts. The realization of the sealing edge and the support edge can be done in the context of existing work steps. The bearing edge is for example the axial end of a cylindrical portion of the loudspeaker basket or the housing portion, and the sealing edge is a radial shoulder connected thereto.
Preferably, the speaker is screwed to the housing by threaded bolts welded to the housing or loudspeaker, and the threaded bolts each pass through a hole in the speaker or housing, and are immobilized preferably by self-locking nuts. Unlike a two-hole screw-through screw, the threaded bolt is soldered to the case or speaker on one side. This weld is gas tight. The self-locking nuts do not disengage even when vibrations occur that are usual during the operation of an exhaust system in a vehicle. Preferably, because of the ambient thermal conditions, the self-locking nuts are used without a plastic ring. Preferably, the threaded bolts are welded to the housing and pass through holes that are provided on the speaker basket.
According to a preferred variant, the holes are arranged radially between the sealing edge and the support edge and / or the threaded bolts are arranged radially in an area in which the housing is spaced axially from the speaker. Thus, we obtain a simpler structure of the sound generating device, which has a small footprint and is simple to mount.
Preferably, four to twelve threaded bolts are provided which pass through associated holes. In addition, five to ten threaded bolts are preferably used. In particular, eight threaded bolts and the associated holes are provided.
Preferably, the nuts are tightened with a torque of 2.5 Nm.
The bearing edge and / or the sealing edge may be substantially circumferentially closed geometries and they may preferably be annular in shape. In this case, closed geometries are in particular quadrangular, polygonal, elliptical and circular geometries.
Alternatively, the bearing edge does not extend circumferentially, but only in an area around the threaded bolts, particularly in a bottom-shaped portion around the threaded bolts, where it bears against the housing. When the bearing edge is in the direction of the longitudinal axis in a radial plane which intersects the sound output aperture, the speaker is disposed very deeply in the housing and near the sound outlet, so that the partial chamber of the rear side is enlarged relative to that of the front side.
Viewed in the direction of the median axis of the loudspeaker, the sealing edge may be radially inside the support edge. As a variant, seen in the direction of the median axis of the loudspeaker, the sealing edge may also be outside the support edge. This provides a compact construction that is achievable at low costs.
Alternatively, the support edge may comprise a plurality of support portions. In this variant, the support edge bears against the housing or against the loudspeaker in several discrete places spaced apart from each other. For example, the support edge may be formed by several support feet. This gives a very simple configuration of the support edge.
Another object of the invention is to provide an exhaust system which has a sound generating device having an improved life.
This object is achieved by an exhaust system of an internal combustion engine of a vehicle provided with a sound generating device according to the invention. The invention will be explained in more detail in the following with reference to the accompanying drawings. The figures show: FIG. 1, schematically a portion of an exhaust system according to the invention provided with a sound generating device according to the invention; • Figure 2, a sound generating device according to the invention in a side view, partially in section; • Figure 3, an exploded view of the sound generating device according to the invention of FIG. 2; • Figure 4, a sectional view of a central housing part of the sound generating device according to the invention of FIG. 3; and FIG. 5 and FIG. 6 details of the sound generating device according to the invention of FIG. 2.
Fig. 1 shows schematically an exhaust system 10 of an internal combustion engine not shown of a vehicle. The exhaust system 10 includes an exhaust pipe 12 on the internal combustion engine side, which conveys the gases from the internal combustion engine.
In addition, the exhaust system 10 comprises a sound generating device 14. In the sound generating device 14, there is a sound which is collected with the exhaust gas, conducted in the exhaust pipe 12 on the engine side internal combustion, via an acoustic duct 16 and a mouthpiece 18. The acoustic duct 16 and the exhaust pipe 12 are connected to a conduit 20 leading the exhaust gas via the mouth 18, which is embodied in the embodiment illustrated for example in the form of an exhaust end tube.
Fig. 2 illustrates the sound generating device 14. The sound generating device 14 comprises a housing 21 which comprises a pot-shaped housing upper portion 22, a housing central portion 24 and a housing lower portion 26.
The individual housing parts 22, 24, 26 are preferably made of metal, in particular of sheet metal, and they are interconnected for example by welding, soldering, gluing, folding, screwing and / or welding. other appropriate methods.
On the lower part of the pot-shaped housing 26 is provided an outlet of its oval which is connected to the pipe 20 leading the exhaust gas via the acoustic pipe 16.
In the illustrated embodiment, a loudspeaker 30 is screwed onto the housing central portion 24 so as to subdivide the housing 21 into two partial chambers 32, 34 which are a partial rear chamber of the loudspeaker and a partial chamber. the front side of the speaker 34 and 32. These partial chambers 32, 34 are along a central axis 36 on opposite sides of the loudspeaker 30.
The partial chamber 32 opens into the sound outlet 28, whereas the partial chamber 34 houses the electrical connection contacts as well as the excitation mechanism of the loudspeaker 30.
The partial chamber 34 is gastightly separated from the partial chamber 32 by the loudspeaker 30 and partially by the housing central portion 24.
Fig. 3 illustrates the sound generating device 14 in an exploded view. It can be seen that the loudspeaker 30 is fixed in the funnel-shaped housing center portion 24 by threaded bolts 38 and nuts 40. In the illustrated embodiment, there are six threaded bolts 38 out of eight in total . It is the same for the nuts 40.
To fix the loudspeaker 30, the threaded bolts 38 are threaded through holes 42 in the loudspeaker 30 and fixed with the nuts 40. In this case, the nuts 40 are preferably made in the form of nuts. self-locking, which preferably do not include plastic elements. Similarly, we see the electrical connection contacts of the speaker 30 in FIG. 3.
In the illustrated embodiment, the holes 42 are disposed on a funnel-shaped loudspeaker basket 43 which is partly laterally open. In particular, the holes 42 are arranged on a substantially cylindrical portion of the speaker basket 43.
Fig. 4 shows in section the central housing portion 24. The outer edge of the housing central portion 24 is formed by a cylindrical portion. It is followed by a frustoconical or funnel-shaped portion 44. The frustoconical portion 44 penetrates clearly into the lower housing portion. The frustoconical embodiment stiffens the central portion of the housing. The portion 44 is transformed into an annular flange portion 45 which is disposed in a plane which is perpendicular to the median axis 36 of the speaker.
The speaker 30 enters the recess formed by the frustoconical portion 44 so that the partial chamber 34 is enlarged and that the axial space is reduced. The flat construction mode is further achieved by the fact that the maximum inside diameter D of the partial chamber 34 on the rear side of the loudspeaker, in this case in the region of the central housing part 24, is larger by minus 25% than the outside diameter d of the loudspeaker which is usually in the area of the outer edge (here the support edge) of the loudspeaker basket. In addition, the bearing edge 52 is in the direction of the longitudinal axis 36 in a radial plane of the longitudinal axis 36 which intersects the sound outlet opening 28.
The annular flange portion 45 surrounds an opening 46 by an angled opening edge 48. The bend provides additional rigidity to the housing central portion 24 and thus to the housing assembly 21.
The threaded bolts 38 are disposed on the annular flange portion 45 and are welded to the annular flange portion 45. The sealing of the annular flange portion 45 is not impeded by the threaded bolts 38. The threaded bolts 38 extend substantially parallel to the median axis 36 of the loudspeaker.
We can also see the joint observation of fig. 4 with fig. 3 that the opening 46 is arranged such that the sound generated by the loudspeaker 30 can pass through this opening 46 and that it is transmitted from the lower housing portion 26 towards the sound output 28.
Fig. 5 illustrates in section a part of the annular flange portion 45. In addition, the bolted connection of the loudspeaker 30 with the housing 21 and the sealing of the loudspeaker 30 relative to the housing 21 is seen in detail.
As in fig. 3, the holes 42 which are traversed by the threaded bolts 38 are arranged on the speaker basket 43. The threaded bolts 38 are locked in the holes 42 by nuts 40.
In addition, a support edge 52 and a sealing edge 54 are provided on the speaker basket 43. The support edge 52 is axially spaced from the sealing edge 54, i.e. in the direction of the median axis 36 of the loudspeaker, and the support edge 52 and the sealing edge 54 are preferably in parallel planes.
The support edge 52 rests directly, that is to say without intermediate elements, against the central housing portion 24, so against the housing 2. The speaker 30 is positioned in the housing 21 by the edge 52. Since the support edge 52 bears directly and circumferentially closed against the central housing part 24, or more precisely against the annular flange portion 45 of the central housing part 24, the distance between the bearing edge 52 and the sealing edge 54 corresponds to the distance of the sealing edge 54 from the housing central portion 24 or more precisely vis-à-vis the flange portion annular 45 of the central housing part 24.
A circumferentially closed seal 56 is provided between the sealing edge 54 and the annular flange portion 45 of the housing central portion 24. Thus, the seal 56 seals the speaker 30 relative to the housing 21.
In the illustration of fig. 5, the seal 56 is compressed to stress-fill the area between the sealing edge 54 and the annular flange 45. Since the distance between the sealing edge 54 and the bearing edge 52 is fixed, the compression of the seal 56 is a defined compression.
In particular, the compression of the gasket 56 does not depend on the intensity with which the loudspeaker 30 is screwed onto the central housing part 24 by means of the nuts 40 and the threaded bolts 38. What matters is that only is the support edge 52 pressed against the housing central portion 24. Optionally, the gasket may be detached or vulcanized on the sealing edge 54, but it is preferably integrated in one piece in said speaker molding 85 on the radial inner side of which is in turn glued the speaker diaphragm (not shown).
Conversely, the force flow generated by the screwed connection of the loudspeaker 30 with the central housing portion 24 does not pass through the seal 56, but it passes through the portion of the speaker 30 or even the basket of speaker 43, which is turned towards the bearing edge 52. Thus, the intensity of the screwing is independent of a possible variation in the elasticity of the seal 56 or a possible withdrawal of the seal 56.
In summary, the positioning of the speaker 30 on the housing 21 is independent of the sealing of the speaker 30 relative to the housing 21.
In the illustrated embodiment, the threaded bolts 38 and the holes 42 are arranged between the sealing edge 54 and the bearing edge 52, in a radial direction with respect to the median axis 36 of the loudspeaker. . In this case, the sealing edge 54 is radially inside the bearing edge 52.
In addition, in the area of the threaded bolts 38, the housing 21 and more precisely the central housing portion 24 is spaced apart (e) from the speaker 30, more precisely from the speaker basket 43.
In the illustrated embodiment, the bearing edge 52, the seal 56 and the threaded bolts 38 are arranged on the annular flange portion 45. This annular flange portion 45 thus constitutes a common flat counter surface for the seal 56 and for the support edge 52.
In addition, it can be seen that the housing central portion 24 penetrates inside the housing 21 and therefore constitutes a partition wall between the partial chambers 32, 34, together with the loudspeaker 30. Naturally, the edge and the sealing edge may also be provided on the housing central portion 24, and the speaker 30, more precisely the speaker basket 43 is planar to form an associated counter surface. In addition, the threaded bolts 38 may then be welded to the speaker 30 or to the speaker basket 43.
Fig. 6 shows the support edge 52 and the sealing edge 54 in a perspective illustration. The loudspeaker 30 and therefore also the loudspeaker basket 43 are substantially round. Around each vertical bolt is formed a support edge 52 in the form of an arc by which only the speaker basket 43 rests against the central housing portion 24. Between the support edges 52 in the form of an arc arc is provided a minimum gap with respect to the central portion of housing 24. Thus, it is sought to avoid a snap. As a variant, of course, the support edge can also extend in closed annular form around the periphery of the loudspeaker. The sealing edge 54 is always substantially annular in shape, the ring being a circular ring. The sealing edge 54 has a closed circumferential geometry. Around the vertical bolts, the axially angled portion 81 of the speaker basket 43 extends substantially in cylindrical form, like a half-tube. This half-tube bears the reference 83 in FIG.
The half tube 83 is the portion of the speaker basket 43 compressed by the vertical bolts.
Alternatively, the sound generating device can be fixed on the exhaust system without its sound exit opening to open into the exhaust line and thus without releasing the sound directly to generate another engine sound or to reduce the engine noise, and for this purpose, the sound generating device can be housed alternatively also in other places of the vehicle.

权利要求:
Claims (18)
[1" id="c-fr-0001]
1. - Sound generating device (14) on a vehicle for reducing or generating the sound of an engine, in particular for an exhaust system (10) of an internal combustion engine of a vehicle, comprising a housing (21) in which is screwed a speaker (30) so as to subdivide an interior space of the housing (21) into two partial chambers (32, 34) separated from each other in a gas-tight manner, characterized in that there is provided a sealing edge (54) for gas sealing of the loudspeaker (30) relative to the housing (21), and a bearing edge (52) for positioning axial direction of the loudspeaker (30) in the interior of the housing (21), and the support edge (52) and the sealing edge (54) are axially spaced from each other.
[2" id="c-fr-0002]
2. - sound generating device (14) according to one of the preceding claims, in particular according to the preamble of claim 1, characterized in that the speaker (30) is fixed on a central portion of the housing (24) and the largest inside diameter of a partial chamber at the back of the loudspeaker is at least 25% greater than the outside diameter of the loudspeaker.
[3" id="c-fr-0003]
3. - sound generating device (14) according to claim 2, characterized in that the central housing portion (24) comprises an annular flange portion (45) on which are arranged the support edge (52) and the seal (56) as well as the threaded bolts (38), in that inside the annular flange portion (45) is provided an opening (46) for passing the sound generated by the speaker (30) and, preferably, the housing central portion (24) is at least locally funnel-shaped or frustoconically shaped on the outer periphery of the annular portion.
[4" id="c-fr-0004]
4. - sound generating device (14) according to claim 3, characterized in that the flange portion (45) comprises an axially bent opening edge (48) in the region of the opening (46).
[5" id="c-fr-0005]
5. - sound generating device (14) according to one of claims 2 to 4, characterized in that the central housing part (24) is connected to a housing upper part (22) on one side and a part lower housing (26) on an opposite side.
[6" id="c-fr-0006]
6. - Sound generating device (14) according to claim 5, characterized in that the lower housing portion (26) comprises a lateral sound outlet (28) through which it is connected to a conduit (20) leading gases exhaust.
[7" id="c-fr-0007]
7. - sound generating device (14) according to one of claims 2 to 6, characterized in that the central housing portion (24) penetrates into the interior of the housing (21) and constitutes a part of a partition separating the partial chambers (32, 34).
[8" id="c-fr-0008]
8. - Sound generating device (14) according to one of claims 2 to 7, characterized in that the transition from the housing of the central portion of the outer diameter to the diameter of the bearing surface passes through a frustoconical portion ( 44) of the central housing part.
[9" id="c-fr-0009]
9. - sound generating device (14) according to one of the preceding claims, characterized in that the speaker (30) is supported by the support edge (52) against the housing (21), preferably directly.
[10" id="c-fr-0010]
10. - sound generating device (14) according to one of the preceding claims, characterized in that a seal (56) is arranged between the sealing edge (54) and the housing (21), and the distance between the sealing edge (54) and the bearing edge (52) determines the distance between the sealing edge (54) and the housing (21), the distance between the sealing edge (54) and the bearing edge (52) being chosen such that the seal (56) is compressed in a defined manner.
[11" id="c-fr-0011]
11. - sound generating device (14) according to one of the preceding claims, characterized in that the bearing edge (52) and the sealing edge (54) are formed, preferably in one piece, on a portion of a speaker basket (43) or a housing portion.
[12" id="c-fr-0012]
12. - sound generating device (14) according to one of the preceding claims, characterized in that the speaker (30) is screwed on the housing (21) by means of threaded bolts (38) welded to the housing ( 21) or on the loudspeaker (30), and the threaded bolts (38) each pass through a hole (42) in the speaker (30) or in the housing (21) and are preferably secured thereto by self-locking nuts (40), the threaded bolts being in particular gas-tightly welded to the housing (21) or to the loudspeaker (30).
[13" id="c-fr-0013]
13. - sound generating device (14) according to claim 12, characterized in that the holes (42) are arranged radially between the sealing edge (54) and the bearing edge (52) and / or bolts threaded threads (38) are arranged radially in an area in which the housing (21) is axially spaced from the speaker (30).
[14" id="c-fr-0014]
14. - sound generating device (14) according to one of the preceding claims, characterized in that the bearing edge (52) and / or the sealing edge (54) have circumferentially substantially closed geometries and preferably annular and / or in that the sealing edge (54) is radially inward of the bearing edge (52), viewed in the direction of the central axis (36) of the loudspeaker.
[15" id="c-fr-0015]
15. - sound generating device (14) according to one of claims 1 to 13, characterized in that the bearing edge (52) does not bear circumferentially against the housing (21), but only in a zone around the threaded bolts, particularly in an arc-shaped portion around the threaded bolts.
[16" id="c-fr-0016]
16. - sound generating device (14) according to one of the preceding claims, characterized in that the seal (56) and the bearing edge (52) bear against a common flat counter surface.
[17" id="c-fr-0017]
17. - sound generating device according to one of the preceding claims, characterized in that in the direction of the longitudinal axis (36) the bearing edge (52) is in a radial plane which intersects the opening of sound output.
[18" id="c-fr-0018]
18. - Exhaust system (10) of an internal combustion engine of a vehicle comprising a sound generating device (14) according to one of the preceding claims, which is connected to a conduit (20) driving gases. exhaust.

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同族专利:

公开号 | 公开日

CN107299846A|2017-10-27|

KR20170118617A|2017-10-25|

JP2017223217A|2017-12-21|

FR3050306B1|2021-06-11|

DE102016107069A1|2017-10-19|

US10477289B2|2019-11-12|

US20170303022A1|2017-10-19|

CN107299846B|2020-09-11|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US4082159A|1976-05-24|1978-04-04|Mar-Kel Lighting, Inc.|Ceramic speaker enclosure|

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DE102006010558A1|2006-03-06|2007-09-13|J. Eberspächer GmbH & Co. KG|Active silencer for an exhaust system|

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DE102012201725B4|2012-02-06|2016-02-25|Eberspächer Exhaust Technology GmbH & Co. KG|Active muffler|

DE102013217849A1|2013-09-06|2015-03-12|Friedrich Boysen Gmbh & Co. Kg|Active sound generating device|DE102017113878A1|2017-06-22|2018-12-27|Eberspächer Exhaust Technology GmbH & Co. KG|Sound generation module|

DE112017008219A5|2017-11-21|2020-09-03|Faurecia Emissions Control Technologies, Germany Gmbh|Sound generating device, vehicle exhaust system and method for producing a sound generating device|

US11208934B2|2019-02-25|2021-12-28|Cummins Emission Solutions Inc.|Systems and methods for mixing exhaust gas and reductant|

法律状态:
2018-04-25| PLFP| Fee payment|Year of fee payment: 2 |

2019-04-25| PLFP| Fee payment|Year of fee payment: 3 |

2020-04-27| PLFP| Fee payment|Year of fee payment: 4 |

2021-03-24| PLFP| Fee payment|Year of fee payment: 5 |

优先权:

申请号 | 申请日 | 专利标题

DE102016107069.6A|DE102016107069A1|2016-04-15|2016-04-15|Sound generating device on a vehicle for reducing or generating engine sound and exhaust system|

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