JP6587521B2 - Vehicle silencer - Google Patents

Description

  The present invention relates to a muffler for a vehicle provided in an intake pipe of the vehicle.

  For example, an air duct having a power source such as an intake pipe of an internal combustion engine has a problem of air column resonance caused by the sound level of the power source itself and the length of the pipe. In order to reduce this, as shown in FIG. 4, a resonance type silencer 1 having a shape in which a cavity 1a is provided around a pipe and a pipe 2 is inserted may be used. When the resonance type silencer 1 is used, as shown in FIG. 5, since the noise reduction effect varies depending on the mounting position of the silencer 1, in order to efficiently reduce the air column resonance (target frequency), the air column of sound It is known that it is desirable to set the communicating portion 1b at the resonance sound pressure anti-node position (position where the sound pressure level is high). 5 shows the difference in the installation position of the resonance silencer. In FIG. 5, when A: no silencer is set, B: the communication portion 1b is set to the node position, C: the communication portion 1b is When set to the node intermediate position, D: indicates the case where the communication portion 1b is set to the antinode position.

In order to reduce to the target level, it is necessary not only to set the communication portion 1b at the sound pressure antinode, but also to increase the cavity (volume) 1a until the target level is reached as shown in FIG. 6 (d). However, realization with a smaller cavity (volume) 1a is desired for reasons of mounting space. 6 shows the difference in volume at the mounting position antinode, and in FIG. 6D, A: no silencer, B: volume X (cc) (FIG. 6A), C: volume 2 × X (cc) (FIG. 6B), D: volume 4 × X (cc) (FIG. 6C).

JP-A-6-159174 JP 2014-152651 A

  An object of the present invention is to provide a vehicle silencer that can mute to a target level with a smaller cavity volume than conventional ones.

The present invention for achieving the above object is as follows.
(1) A plurality of resonant silencers that extend around the intake pipe in the circumferential direction of the intake pipe and whose internal cavity communicates with the internal passage of the intake pipe through a communication portion;
The wall on the inner peripheral side of each of the hollow portions of the plurality of silencers is formed of a wall that forms the intake pipe,
The plurality of silencers are provided side by side in the axial direction of the intake pipe, and two silencers adjacent in the axial direction of the intake pipe share a part of the wall constituting each of the hollow portions. And
The plurality of silencers all mute the same frequency,
The communication portions of the plurality of silencers are provided at different positions in the axial direction of the intake pipe, and are provided to extend in a direction perpendicular to the axial direction of the intake pipe.
The vehicle silencer, wherein a width of each communication portion of the plurality of silencers is adjusted within a range of 2 mm to 20 mm.

According to the vehicle silencer of the above (1), the following effects can be obtained.
The plurality of silencers all mute the same frequency, and the communication portions of the plurality of silencers are provided at different positions in the axial direction of the intake pipe. Thereby, compared with the case where a single large-capacity silencer is provided (conventional), the obtained silencing effect is increased. As a result, the cavity volume (total volume) required to mute to the target level can be reduced compared to the prior art.

According to the vehicle silencer of (1) above, the following effects can be further obtained.
The inner peripheral wall of each cavity of the plurality of silencers is formed by a wall that forms an intake pipe, and the plurality of silencers are provided side by side in the axial direction of the intake pipe. The two silencers adjacent to each other in the axial direction share a part of the wall constituting each cavity. Therefore, not only can the increase in the weight of the silencer be suppressed, it is advantageous in terms of the cost and space of the silencer.

  Moreover, the width | variety of each communication part of a some silencer is adjusted in the range of 2 mm-20 mm. For this reason, generation | occurrence | production of the airflow sound by providing a communication part can be suppressed.

It is a perspective view of a vehicle muffler of the embodiment of the present invention. It is an enlarged sectional view of the vehicle muffler of the embodiment of the present invention. It is a graph of the sound level-frequency which shows the silencing effect obtained with the silencer for vehicles of the present invention example. In the figure, A: no silencer (air column resonance), B: a case where the silencer of the embodiment of the present invention is used, and a single volume 4 × X (cc) of FIG. In the case of using the silencer having the same external shape as the silencer having C, C: the case where the silencer having a single volume 4 × X (cc) of FIG. 6C shown for comparison is used. It is a cross-sectional view of a silencer for a conventional vehicle. FIG. 5 is a sound level-frequency graph showing the difference in the silencing effect obtained at the installation position of the resonant silencer of the type in FIG. 4. In the figure, A: no silencer (air column resonance), B: when the communicating part is set to the node position, C: when the communicating part is set to the middle to middle position, D: the communicating part is the belly When set to position, indicates. FIG. 6D is an explanatory diagram showing the difference in the silencing effect obtained by the difference in the volume of the cavity of the resonance silencer of the type in FIG. 4, and FIG. 6D is a graph of the sound level-frequency. 6 (d), A: no silencer (air column resonance), B: volume X (cc) (FIG. 6 (a)), C: volume 2 × X (cc) (FIG. 6 (b)), D: Volume 4 × X (cc) (FIG. 6C).

  Below, silencer 10 for vehicles of the example of the present invention is explained with reference to drawings.

The intake pipe 20 of the internal combustion engine has a problem of air column resonance caused by the sound level of the power source itself and the length of the pipe, and in order to reduce this, as shown in FIG. A vessel 10 is provided. As shown in FIG. 2, the vehicle silencer 10 has a shape in which a cavity 31 is provided around the intake pipe 20 and the intake pipe 20 is inserted. Specifically, the vehicle silencer 10 extends around the intake pipe 20 in the circumferential direction of the intake pipe 20, and the internal cavity portion 31 communicates with the internal passage 21 of the intake pipe 20 through the communication portion 32. A plurality of mold silencers 30 are provided.

Each of the plurality of resonant silencers 30 has one cavity 31. A wall 31 a on the inner peripheral side of each cavity 31 of the plurality of resonance silencers 30 is formed by a wall that forms the intake pipe 20. Communicating portion 32 is formed on the wall 31a. The plurality of resonant silencers 30 are provided side by side in the axial direction (extending direction) of the intake pipe 20, and each of the two resonant silencers 30 adjacent to each other in the axial direction of the intake pipe 20 has a hollow portion. We have each other to share a part 31b of the walls that make up the 31. All of the outermost peripheral walls 31 c of the plurality of resonance silencers 30 are all at the same position in the radial direction of the intake pipe 20.

The communication portions 32 of the plurality of resonance silencers 30 (communication portions 32 of the resonance silencers 30) are provided at different positions in the axial direction of the intake pipe 20. In the resonance silencers 30 adjacent to each other in the axial direction of the intake pipe 20, each communication portion 32 is separated in the axial direction of the intake pipe 20 from the wall thickness of the wall constituting the resonance silencer 30. The width (length in the intake pipe 20 axial direction) of each communicating portion 32 of the plurality of resonance type silencers 30 is adjusted within a range of 2 mm to 20 mm. Each of the plurality of resonance silencers 30 may have only one communication portion 32 or may have a plurality of communication portions 32.

(I) When one resonance muffler 30 has only one communication portion 32, the communication portion 32 is provided at a single location in the axial direction of the intake pipe 20, and all of the communication silencers 30 are arranged in the circumferential direction of the intake pipe 20. It may be provided continuously over the circumference, or may be provided only in a part of the intake pipe 20 in the circumferential direction.

(Ii) When one resonance muffler 30 has a plurality of communication portions 32, the plurality of communication portions 32 of one resonance muffler 30 are at the same location (single location) in the axial direction of the intake pipe 20. It is provided at different positions in the circumferential direction of the intake pipe 20. When one resonance silencer 30 has a plurality of communication portions 32, each communication portion 32 of one resonance silencer 30 has the same communication path length (the thickness of the intake pipe 20, the length of the communication portion 32. And the same communication passage area (the width of the communication portion 32 (length in the intake pipe 20 axial direction) and the length in the circumferential direction of the intake pipe 20). This is because the silencing frequency of the resonance silencer 30 is such that the volume of the cavity 31, the communication path length (the plate thickness of the intake pipe 20, the length of the communication part 32), the communication path area (the width of the communication part 32 and the circumferential direction). This is to obtain a silencing effect at a single targeted frequency because it is determined by the length) and the speed of sound.

  The plurality of resonance-type silencers 30 are set so that all can mute the same frequency. By adjusting the area of the communication passage (the width of the communication portion 32 and the length in the circumferential direction) with the volume of the cavity 31 and the communication passage length (the thickness of the intake pipe 20 and the length of the communication portion 32) determined. , it is set to mute frequency of aim.

Next, the operation and effect of the embodiment of the present invention will be described.
The plurality of resonance silencers 30 all mute the same frequency, and the communication portions 32 of the plurality of resonance silencers 30 are provided at different positions in the axial direction of the intake pipe 20. As a result, as shown in FIG. 3, a silencing effect (FIG. 3) obtained at a target frequency is obtained as compared with a case where a single large-capacity silencer having the same outer shape is provided (conventionally, in the case of FIG. B) becomes larger. As a result, it is possible to mute to the target level with a smaller external shape than when a single large-capacity silencer having the same external shape is provided. Therefore, the cavity volume (total volume) required to mute to the target level is smaller than in the past.

A wall 31 a on the inner peripheral side of each cavity 31 of each of the plurality of resonance silencers 30 is formed by a wall forming the intake pipe 20, and the plurality of resonance silencers 30 are in the axial direction of the intake pipe 20. The two silencers 30 adjacent to each other in the axial direction of the intake pipe 20 share a part 31b of the wall constituting each cavity 31. Therefore, not only can the increase in the weight of the resonance silencer 30 be suppressed, but the cost and space of the silencer 10 are advantageous.

The width of each communication portion 32 of the plurality of resonance silencers 30 is adjusted within a range of 2 mm to 20 mm. For this reason, generation | occurrence | production of the airflow sound by providing the communication part 32 with two or more can be suppressed.

DESCRIPTION OF SYMBOLS 10 Vehicle silencer 20 Intake pipe 30 Resonance-type silencer 31 Cavity part 31a Wall 31b on the inner peripheral side of the cavity part 31c A wall 31c shared by two adjacent resonance-type silencers Communication part

Claims (1)

A plurality of resonance silencers extending around the intake pipe in the circumferential direction of the intake pipe and having an internal cavity communicating with the internal passage of the intake pipe through a communication portion;
The wall on the inner peripheral side of each of the hollow portions of the plurality of silencers is formed of a wall that forms the intake pipe,
The plurality of silencers are provided side by side in the axial direction of the intake pipe, and two silencers adjacent in the axial direction of the intake pipe share a part of the wall constituting each of the hollow portions. And
The plurality of silencers all mute the same frequency,
The communication portions of the plurality of silencers are provided at different positions in the axial direction of the intake pipe, and are provided to extend in a direction perpendicular to the axial direction of the intake pipe.
The vehicle silencer, wherein a width of each communication portion of the plurality of silencers is adjusted within a range of 2 mm to 20 mm.

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