This application is based upon and claims benefit of priority of Japanese Patent Application No. 2006-199180 filed on Jul. 21, 2006, the content of which is incorporated herein by reference.
1. Field of the Invention
The present invention relates to an air-intake device for an internal combustion engine, the device having a mechanism for reducing noises generated in a combustion chamber and propagated outside through the air-intake device.
2. Description of Related Art
An example of a device for reducing engine noises is disclosed in JP-A-2004-293365. The device includes a resonator attached to an intake air passage. A vibrating member is disposed at a boundary between the resonator and the intake air passage. The vibrating member is vibrated by sound pressure generated in a combustion chamber and propagated to the intake air passage. It is designed to offset the sound propagating through the intake air passage by vibrations of the vibrating member.
In this device, vibration frequencies of the vibrating member are adjusted by pushing the vibrating member with a stick so that noises desired to be eliminated are canceled by the vibrations of the vibrating member. However, an actuator for driving the stick has to be provided in this device, and it is difficult to precisely adjust the vibration frequencies of the vibrating member. In addition, the frequencies of the noises offset by the vibrating member vary depending on positions of the vibrating member in the air-intake passage.
The present invention has been made in view of the above-mentioned problem, and an object of the present invention is to provide an improved air-intake device for an internal combustion engine, in which noises having plural frequencies are canceled without using an actuator.
The air-intake device according to the present invention includes a first air passage for introducing intake air into combustion chambers of an internal combustion engine, a second air passage connected to an upstream portion of the first air passage, and a resonator connected to the first and the second air passages. Intake air introduced from outside through an air cleaner is supplied to the internal combustion engine through the second air passage and the first air passage. The resonator forms a common space commonly connected to the first and the second air passages. A first vibrating member is disposed to separate the first air passage from the common space, and a second vibrating member is disposed to separate the second air passage from the common space.
The first air passage may be formed by a surge tank connected to an intake manifold for supplying intake air to each combustion chamber of the internal combustion engine. The second air passage may be formed by a duct having a cross-section smaller than that of the surge tank. The first vibrating member is designed to resonate with a frequency of noises generated in the combustion chamber and propagated to the first air passage, so that an amount of the noises is reduced (offset) by vibrations of the first vibrating member. Similarly, the second vibrating member is designed to resonate with a frequency of noises generated in the combustion engine and propagated to the second air passage through the first air passage, so that an amount of the noises is reduced (offset) by vibrations of the second vibrating member.
The resonator may be disposed around the duct forming the second air passage, so that a resonator space is formed around the second air passage. Plural vibrating members may be installed in the duct to separate the second air passage from the resonator chamber.
According to the present invention, noises having plural frequencies are canceled or reduced by a resonator having two or more vibrating members. No actuator for controlling resonant frequencies of the vibrating member is necessary, and only one common resonator is used. Accordingly, the air-intake device having a noise reduction mechanism can be made compact and at a low cost. Other objects and features of the present invention will become more readily apparent from a better understanding of the preferred embodiments described below with reference to the following drawings.
a) is a schematic view showing a model used for analyzing sounds in the air-intake device;
b) is a graph showing analysis results of the sound in the air-intake device;
A first embodiment of the present invention will be described with reference to
An intake manifold 4 made of resin is connected to each intake port that introduces air into each combustion chamber 2 of an internal combustion engine. An amount of intake air passing through the intake manifold 4 is controlled by a throttle valve (not shown). In this particular embodiment, the throttle valve is disposed upstream of the surge tank 10. The surge tank 10 is connected to an upstream portion of the intake manifold 4. In the surge tank 10, a first air passage 11 is formed. The surge tank 10 enlarges the intake air passage to thereby bring an air pressure therein closer to the atmospheric pressure. As a result, a pressure difference relative to a negative pressure in the combustion chamber 2 can be increased thereby to supply a sufficient amount of intake air to the combustion chamber 2.
A duct 20 is connected to an upstream portion of the surge tank 10. The duct 20 forms a second air passage 21 therein. A cross-sectional area of the duct 21 is smaller than that of the surge tank 10. An air cleaner (not shown) for removing foreign particles or dusts included in air is disposed upstream of the duct 20.
A resonator 30 forming a common space 31 is connected to both of the surge tank 10 and the duct 20. The surge tank 10 has a first opening 12 communicating with the common space 31, and the first opening 12 is closed with a first vibrating member 40. The duct 20 has a second opening 22 communicating with the common space 31, and the second opening 22 is closed with a second vibrating member 50. The common space 31 is a space formed in the resonator 30 and closed with the first vibrating member 40 and the second vibrating member 50.
The first vibrating member 40 is vibrated (in an up-down direction in
Sound characteristics in an air-intake device composed of the intake manifold 4, the surge tank 10 and duct 20 are analyzed, using a model shown in
b) shows respective sound spectra in the passage P1, P2 and P3. In respective graphs of
In the graphs shown in
For effectively canceling any of the sound waves Q1-Q6, it is desirable to place a vibrating member at a position where its amplitude is the highest. In this respect, to cancel the sound wave Q3, it is desirable to place a vibrating member in the intake manifold 4 (refer to
An amount of noise reduction obtained by using the first vibrating member 40 or the second vibrating member 50, or both members will be described with reference to
In
It is seen from the graph that both effects of the first vibrating member 40 (line [C]) and the second vibrating member 50 (line [B]) are combined when both vibrating members 40, 50 are used (line [A]). It is also seen from the graph that the sound wave Q3 (shown in
In the case, where the frequency of the sound wave Q3 is most effectively canceled in the first air passage 11 and the frequency of the sound wave Q6 is most effectively canceled in the second air passage 21, the first vibrating member 40 is designed to resonate with the frequency of Q3, and the second vibrating member 50 is designed to resonate with the frequency of Q6. In this manner, sound waves having respectively different frequencies are effectively canceled or offset.
The resonator 30 forms the space 31 common to both vibrating members 40, 50. Therefore, the structure of the noise reduction mechanism is simplified and can be made compact. Further, an actuator for changing the resonant frequency of the vibrating member, which is used in a conventional mechanism, is not used in the present invention. Accordingly, the noise reduction mechanism is further simplified, and resonant frequencies of the vibrating members can be precisely set.
A second embodiment of the present invention will be described with reference to
The present invention is not limited to the embodiments describe above, but it may be variously modified. For example, the vibrating member or members may be installed in the air cleaner disposed upstream of the duct 20. Plural vibrating members maybe installed in the surge tank 10. While the present invention has been shown and described with reference to the foregoing preferred embodiments, it will be apparent to those skilled in the art that changes in form and detail may be made therein without departing from the scope of the invention as defined in the appended claims.
Number | Date | Country | Kind |
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2006-199180 | Jul 2006 | JP | national |
Number | Name | Date | Kind |
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7350496 | Nakayama et al. | Apr 2008 | B2 |
20060065479 | Okawa et al. | Mar 2006 | A1 |
Number | Date | Country |
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2004-293365 | Oct 2004 | JP |
Number | Date | Country | |
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20080017156 A1 | Jan 2008 | US |