JP3613665B2 - Intake device for internal combustion engine for automobile - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an intake device for an internal combustion engine for automobiles, and relates to an intake apparatus for an internal combustion engine for automobiles that performs intake of an internal combustion engine of an automobile.
[0002]
[Prior art]
In conventional automobiles, intake noise is regarded as noise, and an intake device of an internal combustion engine for automobiles employs various noise reduction methods in order to reduce the intake noise. For example, Japanese Patent Laid-Open No. 3-50371 discloses an intake device having an intake duct that introduces air sucked from an intake port into an air cleaner, and a plurality of intake ports having different discharge sound characteristics are formed in the intake duct in a branched manner. By arranging the mouths in the engine room at positions with different acoustic amplification characteristics, the sound discharged from each intake port is canceled at positions with different acoustic amplification characteristics, and the noise level at each frequency is averaged and specified. It is described that a significant increase in noise level is suppressed with frequency.
[0003]
[Problems to be solved by the invention]
In recent years, there is an increasing tendency to demand a powerful sports sound in vehicles such as MPU (Multipurpose Passenger Vehicle) and SUV (Sport Utility Vehicle). When trying to obtain such sports sound, conventionally, exhaust sound is generally used, and none uses intake sound. This is because the exhaust has a higher pressure than the intake and can easily produce sound.
[0004]
However, when trying to obtain a powerful sports sound using the exhaust sound, the exhaust sound level increases in proportion to the engine speed, and a large level exhaust sound is generated even during medium-speed and high-speed cruises. There is a problem that a high level exhaust sound is output even when it is applied, and a powerful sports sound cannot be obtained only during acceleration.
[0005]
Further, since the conventional intake device for an internal combustion engine for automobiles is intended to suppress the discharge sound of the intake port, it cannot obtain a powerful sports sound only during acceleration.
The present invention has been made in view of the above points, and an object of the present invention is to provide an intake device for an internal combustion engine for automobiles that can obtain a powerful sports sound during acceleration.
[0006]
[Means for Solving the Problems]
The invention according to claim 1 is an intake device for an internal combustion engine for an automobile, which includes an intake duct for introducing air sucked from an intake port into an air cleaner.
Having a plurality of intake ducts having different resonance frequencies,
Intake noise is generated in the plurality of intake ducts at a high load of the internal combustion engine ,
The engine speed and sound pressure level characteristics of the intake sound generated in each of the plurality of intake ducts and propagating into the passenger compartment are set so that the engine speed is different from each other.
The sound pressure level in the passenger compartment of the intake sound is set to a characteristic that the sound pressure level increases almost linearly as the engine speed increases .
[0007]
In this way, the sound pressure level of the intake sound in the passenger compartment is set to a characteristic in which the sound pressure level increases almost linearly as the engine speed increases, so that it is possible to obtain a powerful sports sound during acceleration.
The invention according to claim 2 is an intake device for an internal combustion engine for an automobile, which includes an intake duct that introduces air sucked from an intake port into an air cleaner.
Having a plurality of intake ducts having different resonance frequencies,
Intake noise is generated in the plurality of intake ducts at a high load of the internal combustion engine,
One of the plurality of air intake ducts opens an air intake to a cowl box having a frequency characteristic that facilitates propagation of relatively high frequency band sound into the passenger compartment.
Another one of the plurality of intake ducts opens the intake port to a fender having a frequency characteristic that facilitates the propagation of relatively low frequency sound into the vehicle interior .
[0008]
In this way, one of the plurality of intake ducts opens the intake port to a cowl box having a frequency characteristic that facilitates propagation of relatively high frequency band sound into the passenger compartment.
In the other one of the plurality of intake ducts, the intake port is opened to a fender having a frequency characteristic that facilitates propagation of relatively low-frequency sound into the vehicle interior, so that it responds to changes in engine speed during acceleration. The sound pressure level can be set so as to change linearly, and a sports sound with a powerful feeling corresponding to acceleration can be obtained.
[0009]
The invention according to claim 3 is an intake system for an internal combustion engine for an automobile, which includes an intake duct for introducing air sucked from an intake port into an air cleaner.
Having a plurality of intake ducts having different resonance frequencies,
Intake noise is generated in the plurality of intake ducts at a high load of the internal combustion engine,
One of the plurality of air intake ducts opens into a cowl box;
Another one of the plurality of intake ducts opens to the fender,
Each of the plurality of intake ducts has a resonator that attenuates sound in a predetermined frequency band .
In this way, each of the plurality of intake ducts has a resonator that attenuates sound in a predetermined frequency band, and therefore, the sound pressure level is set to change linearly according to changes in the engine speed during acceleration. It becomes possible.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a structural diagram of an embodiment of an intake device for an internal combustion engine for automobiles of the present invention. This figure shows a state in which the hood of the vehicle is removed and the engine room is viewed from above. In FIG. 1, a cowl intake duct 10 is provided with an intake port 11 opened in a cowl box 12. Air sucked from the intake port 11 is sent to an air cleaner 16 in an engine room 14 by the cowl intake duct 10. be introduced. The cowl intake duct 10 is provided with a resonator 18 that attenuates sound in a predetermined frequency band (one or a plurality of bands).
[0012]
The fender intake duct 20 is provided with an intake port 21 opened from the engine room 14 to the fender 22 side, and the air sucked from the intake port 21 is introduced into the air cleaner 16 in the engine room 14 by the fender intake duct 20. Is done. The fender intake duct 20 is provided with a resonator 28 that attenuates sound in a predetermined frequency band (one or a plurality of bands).
[0013]
Here, the duct length of the cowl intake duct 10 is made larger than the duct length of the fender intake duct 20, and the duct diameter of the cowl intake duct 10 is made larger than the duct diameter of the fender intake duct 20, Thus, the resonance frequency f1 of the cowl intake duct 10 is set lower than the resonance frequency f2 of the fender intake duct 20. For example, the resonance frequency f1 is set to about 100 to 200 Hz, and the resonance frequency f2 is set to about 200 to 400 Hz.
[0014]
When the internal combustion engine travels at a constant speed, the load on the internal combustion engine is small and almost no intake noise is generated in the cowl intake duct 10 and the fender intake duct 20, but during acceleration when the load on the internal combustion engine increases, the cowl intake duct 10 and the fender. A certain amount of intake noise is generated in the intake duct 20.
By the way, the cowl box 12 has a frequency characteristic that facilitates propagation of relatively high frequency sound into the vehicle interior, and the fender 22 has a frequency characteristic that facilitates propagation of relatively low frequency sound into the vehicle interior.
[0015]
The acoustic characteristics of the cowl box 12 and the fender 22, the cowl intake duct 10 and the resonator 18, and the acoustic characteristics of the fender intake duct 20 and the resonator 28 are combined to generate the cowl intake duct 10 during acceleration. The sound pressure level of the intake sound that propagates into the passenger compartment is set to have a characteristic as shown by a solid line I in FIG. 2 with respect to the engine speed NE. The characteristic of the solid line I is that a peak P11 having a frequency of approximately f1 occurs when the engine speed NE is NE11, a peak P12 having a frequency of approximately 2 · f1 occurs when NE12, and a frequency of approximately 3 · f1 when NE13. Peak P13 occurs.
[0016]
Further, the sound pressure level of the intake sound generated in the fender intake duct 20 during acceleration and propagating in the passenger compartment has a characteristic as shown by the broken line II in FIG. 2 with respect to the engine speed NE. The characteristic of the broken line II is that when the engine speed NE is NE21, a peak P21 with a frequency of approximately f2 occurs, when NE22, a peak P22 with a frequency of approximately 2 · f2 occurs, and when NE23, the frequency of approximately 3 · f2 Peak P23 occurs.
[0017]
Here, the peaks P21, P22, and P23 are set to exist between the peaks P11, P12, and P13 (in the dimension of the engine speed NE). Therefore, the sound pressure level in the passenger compartment of the intake sound synthesized at the time of acceleration has a characteristic that the sound pressure level increases almost linearly as the engine speed NE increases, as indicated by a solid line III in FIG.
[0018]
Thereby, in the passenger compartment, it is possible to obtain a powerful sports sound in which the frequency and the sound pressure level increase almost linearly as the engine speed NE increases during acceleration. It should be noted that since the load on the internal combustion engine is small during constant speed running, almost no intake noise is generated in the cowl intake duct 10 and the fender intake duct 20, and the quietness in the passenger compartment can be maintained.
[0019]
Further, since the air introduced into the air cleaner 16 is sucked from the cowl box 12 and the fender 22 whose temperature is lower than that of the engine room, the output of the engine can be improved. Furthermore, by designing the duct length of the cowl intake duct 10 and the fender intake duct 20, the duct diameter, the mounting positions of the intake ports 11 and 21, and the attenuation frequencies of the resonators 18 and 28, the intake air can be freely changed. The relative adjustment of the sound pressure level and the intake pressure loss can be performed in a wide range of the engine speed NE so that the pressure loss does not become higher than necessary.
[0020]
Note that the fender intake duct 20 may be arranged in the engine room 14 so as to suck outside air by disposing the intake port 21 at the upper portion of the radiator or the like. However, in this case, it is necessary to make the acoustic characteristics of the intake sound the same as the fender intake by the duct length and diameter of the fender intake duct 20 and the design of the resonator 28. Further, each of the cowl intake duct 10 and the fender intake duct 20 may have a plurality of branched intake ports, and each of the cowl intake duct 10 and the fender intake duct 20 may be provided. The present invention is not limited to the above embodiment.
[0021]
【The invention's effect】
As described above, according to the first aspect of the present invention, the sound pressure level in the passenger compartment of the intake sound has a characteristic that the sound pressure level increases almost linearly as the engine speed increases. You can get a sound.
[0022]
According to a second aspect of the present invention, one of the plurality of air intake ducts has an air intake opening in a cowl box having a frequency characteristic that facilitates propagation of acoustics in a relatively high frequency band into the vehicle interior. The other one of the ducts has an intake port opened to a fender having a frequency characteristic that facilitates propagation of relatively low frequency sound into the passenger compartment, so that a powerful sports sound can be obtained according to acceleration. .
[0023]
According to a third aspect of the present invention, each of the plurality of intake ducts has a resonator that attenuates sound in a predetermined frequency band, so that the sound pressure level changes linearly according to changes in engine speed during acceleration. It is possible to set so as to.
[Brief description of the drawings]
FIG. 1 is a structural diagram of an embodiment of an intake device for an internal combustion engine for automobiles according to the present invention.
FIG. 2 is a characteristic diagram showing the relationship between the sound pressure level of the intake sound and the engine speed NE in the vehicle interior of the present invention.
[Explanation of symbols]
10 Cowl intake ducts 11, 21 Inlet 12 Cowl box 14 Engine room 16 Air cleaner 18, 28 Resonator 20 Fender intake duct 22 Fender

Claims (3)

In an intake system for an internal combustion engine for an automobile having an intake duct for introducing air sucked from an intake port into an air cleaner,
Having a plurality of intake ducts having different resonance frequencies,
Intake noise is generated in the plurality of intake ducts at a high load of the internal combustion engine ,
The engine speed and sound pressure level characteristics of the intake sound generated in each of the plurality of intake ducts and propagating into the passenger compartment are set so that the engine speed is different from each other.
An intake system for an internal combustion engine for an automobile, characterized in that the sound pressure level in the passenger compartment of the intake sound has a characteristic that the sound pressure level increases substantially linearly as the engine speed increases . In an intake system for an internal combustion engine for an automobile having an intake duct for introducing air sucked from an intake port into an air cleaner,
Having a plurality of intake ducts having different resonance frequencies,
Intake noise is generated in the plurality of intake ducts at a high load of the internal combustion engine,
One of the plurality of air intake ducts opens an air inlet to a cowl box having a frequency characteristic that facilitates propagation of sound in a relatively high frequency band into the passenger compartment.
Another one of the plurality of air intake ducts has an air intake opening in a fender having a frequency characteristic that facilitates propagation of relatively low frequency sound into the vehicle interior. . In an intake system for an internal combustion engine for an automobile having an intake duct for introducing air sucked from an intake port into an air cleaner,
Having a plurality of intake ducts having different resonance frequencies,
Intake noise is generated in the plurality of intake ducts at a high load of the internal combustion engine,
One of the plurality of air intake ducts opens an air inlet to the cowl box,
Another one of the plurality of intake ducts opens to the fender,
Each of the plurality of intake ducts includes a resonator that attenuates sound in a predetermined frequency band .

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