DE10332610A1 - Noise reduction system for use on combustion engines uses loud speaker in flow duct to cancel generated noise - Google Patents

Abstract

The loudspeaker [1] is located in the air inlet manifold [12] of the internal combustion,IC, engine. Air flows through the channel [2]. The loudspeaker diaphragm [3] is excited to provided sound that is superimposed on the flow noise and is phased to reduce the noise level. The diaphragm is controlled by electronic elements [4] that respond to microphone input. Heat is conducted by cooling fins [16].

Description

technical area

The The invention relates to a device for actively influencing the noise an internal combustion engine with a speaker housed in a housing, which is arranged in a leading to the internal combustion engine flow channel, which is driven by electronic components, in the emission direction the membrane to produce a sound field.

to insulation the noise emission of a motor vehicle, sound absorbing materials are used the passenger compartment opposite the Isolate the engine.

There a significant amount of noise a motor vehicle engine via the intake system of the engine comes to the outside, are also concepts for Noise cancellation known, the in the flow channel attach the intake system, and by means of expansion chambers or Helmholtz resonators the noise level insulate.

Furthermore In addition to these passive-acting measures, active systems are known, which aim at the sound field in the intake manifold of the engine artificially superimpose generated sound field, to achieve in this way a reduction in the noise level.

Such a system is for example from the EP 0884471 A 2 known. It consists of a speaker and a microphone, which are arranged in the intake manifold of an internal combustion engine. With the help of the microphone, a control unit measures the sound emission caused by the combustion process in the engine. Depending on the measurement signal, possibly also with the inclusion of further motor parameters, the control unit generates control signals for the loudspeaker, so that the diaphragm of the loudspeaker emits a secondary sound field which is superimposed on the primary noise field of the engine and lowers the emitted noise level.

in the Contrary to this noise reduction but it can also be desired be the noise emission a motor vehicle engine to influence so that the emitted Sounds a given sound picture as possible to come close. For example, in a motor vehicle, there may be a desire that for To emphasize a specific type of engine characteristic engine noise stronger. About that In addition, the noise emission is conceivable of a small car to influence so that this the sound of a Sports car similar becomes.

For an effective Influencing the noise emission a motor vehicle engine is depending on the objective and engine type in the flow channel a speaker drive power of about 10 to 50 watts required. The speaker control is done by a control electronics, the exposed in a motor vehicle harsh operating conditions is protected from mechanical effects and moisture got to. A protective one Housing, the mostly for cost reasons Made of plastic, the problem raises the heat loss from the Interior to the outside dissipate. The reliability of electronic components is directly related to the warming of the Components linked.

presentation the invention

Of the The present invention is based on the object, a device for actively influencing the noise emission of an internal combustion engine specify a high reliability that has cost-effective can be produced and in the flow channel the flow medium the lowest possible hydrostatic flow resistance opposes.

The solution The object is achieved by the features of claim 1. Advantageous Embodiments are the subject of dependent claims.

According to the invention arranged electronic components for controlling the speaker in the speaker housing where at least one to be cooled Component thermally conductive with a heat conducting part is connected through a recess in the housing of the Speaker in the flow channel extends. By the arrangement of the components in the housing is the control circuit protected from environmental influences. The incurred during operation Power loss leads a heat conducting part from the interior into the flow channel, where they pass by Medium is derived. Due to the heat dissipation reduces the Operating temperature of the electrical components and thus their Failure rate. It can several separate heatsink provided be. A separate housing for the control electronics eliminated. As the electrical connection lines between control electronics and speakers in the interior of the speaker housing, accounted for these lines the otherwise required housing feedthroughs.

A particularly efficient heat dissipation can be achieved by a heat-conducting part with cooling fins whose longitudinal extent in the direction of a central axis se of the flow channel lie.

It is desirable when the cooling fins in the flow channel the flow to oppose a low hydrostatic resistance. fluidically Cheap For example, a profile that has a cross-sectional area in shape having an ellipse.

It is structurally advantageous if the speaker in the suction tube concentric is arranged to a central axis. The longitudinal ribs can reach the inner wall of the flow channel guided be. They then serve in addition to the heat dissipation as a support device.

With Advantage are the electronic components on a component circuit board attached, which extends in the direction of the central axis.

It is recommended if the heat conducting part in a disc-shaped Base is continued, attached to the pole core of the speaker is. This construction creates on the one hand a holder for the circuit board. At the same time, heat losses, arising in the voice coil of the speaker, from the pole core in the flow channel derived.

If the membrane in the intake manifold of an air intake system of an internal combustion engine close the entrance opening lies, lets the noise emission particularly efficient influence.

It is fluidic Cheap, if the case parabolically is formed and an outer surface of the housing with an inner surface of the suction tube limits an annular gap.

One Suction tube in the mouth area bell-shaped has expanded, in terms of efficiency of noise control proved to be particularly advantageous.

Around Protecting the interior against the ingress of moisture and dust is provided on a housing edge lying to the speaker a seal. Comes in assembled condition of housing and speaker the seal with a housing side ring surface of the speaker to the system and seals the interior opposite the Flow channel. For example, the seal can be made from an O-ring that fits in a Groove on the edge of the case is housed.

For the microphone holder has a basket-shaped support structure proved to be advantageous in the connection cable to the control electronics in a cable guide led a support arm are.

Between the heat conducting part and the inner surface of the speaker housing is appropriate one Sealant, such as a plastic sealant or a Rubber ring provided to the area of the recess opposite to the Outdoor space too tight.

Regarding The production is favorable if the housing and the suction tube in one piece as an injection molded part of polymeric material is made.

Summary the drawing

The Invention will now be described by way of example with reference to FIG on the attached figures explained. It shows:

1 a preferred first embodiment of the device according to the invention in a sectional view.

2 a preferred second embodiment of the device according to the invention in a sectional view.

3 a section through the device of 1 along the line BB

4 a first profile of a longitudinal rib in a sectional view along the line CC in 1 ,

5 a second profile of a longitudinal rib in a sectional view along the line CC in 1

Embodiment of the invention

In the 1 and 2 in each case a preferred embodiment of the invention is shown in a sectional drawing. 3 shows a section through the device of 1 along the line BB. In 4 and 5 exemplary longitudinal rib profiles are shown. In the figures, elements of the same construction or function bear the same reference numerals.

The 1 shows a speaker 1 in a housing 7 in a suction pipe 12 an internal combustion engine is arranged. During operation of the internal combustion engine air flows from the outside 10 in the flow channel 2 , In the flow channel 2 Fuel is added to the airflow. The internal combustion engine itself and the fuel mixing device is not shown in detail in the figures. The flow direction of the gas mass flow is indicated by the arrow SR. The suction tube 12 and the case 7 is one-piece and of the same material in spray Casting technology made of plastic. A frusto-conical section of the housing 7 protrudes into the intake manifold 12 , The suction tube 12 is in the estuarine area 11 expanded bell-shaped. The housing 7 encloses the back 6 of the speaker 1 and is concentric with a central axis 14 ,

In order to influence noise occurring during operation of the internal combustion engine, we in the emission direction AR by excitation of the membrane 3 of the speaker 1 a sound field radiated. This sound field is superimposed on the flow in the intake manifold 12 , Depending on the phase position of the induced sound waves interference increases or attenuates the instantaneous sound amplitude values.

The control of the membrane 3 of the speaker 1 is done by control signals, the electronic components on a circuit board 5 provide. The control signals are the result of a signal processing in which as input variables the measurement signal of a microphone 21 and possibly further engine parameters are processed. In 1 is for clarity only an electronic component 4 the control circuit shown. A heat conducting part 15 conducts heat from this device 4 in the flow channel 2 , A cooling fin 16 the Wärmeleitteils 15 is through a recess 25 in the case 7 performed and extends in the annular gap 18 to the inner surface 13 of the suction pipe 12 , Of course, the heat-conducting part may have a plurality of cooling fins which are radially each through associated recesses 25 in the case 7 are guided. The cooling fins 16 They can also be designed to be in front of the inside surface 13 end up.

The 2 shows a variant of the invention, in which the heat-conducting body 15 in a disk-shaped foot part 27 continues. This angled part 27 on the one hand forms a holder for the circuit board 8th , On the other hand lies the foot part 27 also on the back wall of the Polkerns 28 of the speaker 1 flat on. The heat sink designed in this way therefore also conducts heat that accumulates in the plunger coil of a dynamic loudspeaker to the air flowing past in the annular gap 18 from.

The edge 9 of the housing part 7 forms with the annular surface 22 at the back of the speaker edge a sealing gap. How out 1 and 2 is easily recognizable, is in the assembled state of this sealing gap by seal 19 locked. The seal 19 lies in a circumferential groove 20 that in the edge 9 of the housing part 7 is provided.

The microphone 21 is on a basket-shaped support structure 24 attached. The support structure 24 is by fastening screws on the housing part 7 appropriate.

In the 4 and 5 are two cross-sectional areas 17 the longitudinal ribs 16 shown. In 4 has cross-sectional area 17 the shape of an ellipse. In 5 is the cross-sectional area 17 drop-shaped. Both rib profiles impose a comparatively low hydrostatic resistance against a flow SR running in the direction of the arrow.

Claims (17)

Device for actively influencing the noise emission of an internal combustion engine with a housing (in 7 ) ( 1 ), which in a leading to the internal combustion engine flow channel ( 2 ) is arranged and is driven by electronic components to in a radiation direction (AR) of the membrane ( 3 ) to generate a sound field, characterized in that the electronic components in the interior ( 8th ) of the housing ( 7 ) are arranged and at least one of these components ( 4 ) heat-conducting with a Wärmeleitteil ( 15 ) connected through a recess ( 25 ) in the housing ( 7 ) in the flow channel ( 2 ). Device according to claim 1, characterized in that the or each heat-conducting part ( 15 ) Cooling fins ( 16 ), which in the flow channel ( 2 ) in the direction of a central axis ( 14 ). Device according to claim 2, characterized in that each cooling rib ( 16 ) in the flow channel ( 2 ) a profile with a cross-sectional area ( 17 ) is formed, which opposes a flow in the flow direction (SR) a low hydrostatic resistance. Device according to claim 2 or 3, characterized in that the loudspeaker ( 1 ) in the flow channel ( 2 ) substantially concentric with the central axis ( 14 ) is trained. Device according to claim 4, characterized in that the electronic components ( 4 ) on a component circuit board ( 5 ) and the component circuit board ( 5 ) in the housing ( 7 ) in the direction of the central axis ( 14 ) is arranged. Device according to one of claims 1 to 5, characterized in that the heat-conducting part ( 15 ) in a disk-shaped foot part ( 27 ) ( 2 ), which is at the pole core ( 28 ) of the loudspeaker ( 1 ) is attached. Device according to one of claims 1 to 6, characterized in that the flow channel ( 2 ) through a suction tube ( 12 ) of an air intake system of the internal combustion engine is formed and the membrane ( 3 ) of the loudspeaker ( 1 ) close to the suction tube inlet opening ( 11 ) is arranged. Device according to one of claims 1 to 7, characterized in that the housing ( 7 ) is parabolic and an outer surface ( 23 ) of the housing ( 17 ) with an inner surface ( 13 ) of the suction tube ( 12 ) an annular gap ( 18 ) limited. Apparatus according to claim 7 or 8, characterized in that the suction tube ( 12 ) in the region of the suction tube inlet opening ( 11 ) is extended bell-shaped in the direction of radiation (AS). Device according to one of the preceding claims, characterized in that on one to the loudspeaker ( 1 ) lying housing edge ( 9 ) a seal ( 19 ) provided in an assembled state of housing ( 7 ) and speakers ( 1 ) with a ring surface ( 22 ) of the loudspeaker ( 1 ) comes to the plant and the interior ( 8th ) in relation to the exterior space ( 10 ) sealingly closes. Apparatus according to claim 10, characterized in that the seal ( 19 ) in a circumferential groove ( 20 ) of the housing edge ( 9 ) is arranged. Apparatus according to claim 10 or 11, characterized in that the seal ( 19 ) is formed of an elastomer. Device according to one of the preceding claims, characterized in that in the region of the suction tube inlet opening ( 11 ) a basket-shaped support structure ( 24 ) is provided, which is a holder for a microphone ( 21 ). Device according to claim 13, characterized in that the microphone ( 21 ) by a connection cable with at least one component on the component circuit board ( 5 ) is electrically connected. Device according to claim 14, characterized in that a support arm ( 26 ) of the support structure ( 24 ) forms a cable guide for the connection cable. Device according to at least one of claims 7 to 15, characterized in that the housing ( 7 ) and the suction tube 12 As an injection molded part and material is uniformly made of polymeric material. Device according to at least one of the preceding claims, characterized in that between the heat-conducting part ( 15 ) and a housing inner surface ( 31 ) a sealant ( 29 ) is provided.