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JPS63186907A - Muffler - Google Patents

Muffler

Info

Publication number
JPS63186907A
JPS63186907A JP1955287A JP1955287A JPS63186907A JP S63186907 A JPS63186907 A JP S63186907A JP 1955287 A JP1955287 A JP 1955287A JP 1955287 A JP1955287 A JP 1955287A JP S63186907 A JPS63186907 A JP S63186907A
Authority
JP
Japan
Prior art keywords
muffler
tubular member
exhaust gas
resonance chamber
pipe
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP1955287A
Other languages
Japanese (ja)
Inventor
Toru Morimoto
徹 森本
Fumihiro Nakagawa
中川 文博
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to JP1955287A priority Critical patent/JPS63186907A/en
Publication of JPS63186907A publication Critical patent/JPS63186907A/en
Pending legal-status Critical Current

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  • Exhaust Silencers (AREA)

Abstract

PURPOSE:To obtain the superior sound suppressing effect with the small-sized device by installing a tubular member made of metal porous material for limit ing a main flow passage in a muffler body and forming the inside and outside resonance chambers divided by a cylindrical body having a number of holes between the tubular member and the muffler body. CONSTITUTION:A tubular member 7 made of metal porous material for limiting the main flow passage for the exhaust gas which passes through a muffler is installed into the muffler body 2 connected with an exhaust gas introducing pipe 3 and discharge pipe 4 at the both edges. The tubular member 7 is supported onto the muffler body 1 by a plurality of partitioning plates 6, in order to prevent the deformation due to the shortage of strength. A plurality of doughnut-shaped resonance chambers 5 are formed by the partitioning plates 6, and a cylindrical body 8 having a number of holes 9 is installed into the resonance chamber 5 so that the resonance chamber 5 is divided into the inside and outside resonance chambers 5a and 5b. Therefore, the superior sound suppressing effect can be obtained without increasing an the length of the muf fler, i.e., the length of the flow passage in which exhaust gas passes.

Description

【発明の詳細な説明】 〈産業上の利用分野〉 本発明は自動車、ガスタービン、漁船、各種産業機械、
建設機械等に用いられるマフラーに係り、特に吸音材と
して金属多孔質材を利用したマフラーに関する。
[Detailed Description of the Invention] <Industrial Application Field> The present invention is applicable to automobiles, gas turbines, fishing boats, various industrial machines,
The present invention relates to mufflers used in construction machinery and the like, and particularly relates to mufflers using porous metal materials as sound absorbing materials.

〈従来の技術〉 エンジンから排出される排気ガスは、およそ3〜5 K
glco+2の圧力と、600〜800℃の温度があり
、燃焼ガスが放出する熱の35〜39%を含んでいる。
<Prior art> The exhaust gas emitted from the engine is approximately 3 to 5 K.
It has a pressure of GLCO+2 and a temperature of 600-800°C and contains 35-39% of the heat released by the combustion gases.

このような高圧、高温の排気ガスをそのまま大気中に放
出すると、ガスが急激に膨張し、激しい爆発音を発する
ため排出の館にマフラーを通し、圧力と温度を下げ、音
を消して大気中に放出するようにしている。
If such high-pressure, high-temperature exhaust gas is released directly into the atmosphere, it will expand rapidly and make a violent explosion sound, so a muffler is passed through the exhaust chamber to lower the pressure and temperature, muffling the sound, and releasing it into the atmosphere. I am trying to release it to

マフラーの消音方法には、排気管の一部を絞って圧力の
変動をおさえる方法、排気管の一部を急に拡張する方法
、共鳴減衰の現象を応用する方法、吸音材で音を吸収す
る方法などがあり、それぞれ音の吸収範囲が異なるので
、これらを組合せて用いる場合もある。
Methods of muffler noise reduction include squeezing part of the exhaust pipe to suppress pressure fluctuations, suddenly expanding part of the exhaust pipe, applying the phenomenon of resonance damping, and absorbing sound with sound-absorbing materials. There are various methods, each with a different sound absorption range, so these methods may be used in combination.

このような消音方法のうち、マフラー内に吸音材を配設
して音を吸収する方法においては、吸&材としてグラス
ウール、アルミニウム多孔質材、セラミック等が用いう
わている。しかしながら、これらの吸音材には次のよう
な欠点がある。
Among such noise reduction methods, in the method of absorbing sound by disposing a sound absorbing material in the muffler, glass wool, porous aluminum material, ceramic, etc. are used as the absorbing material. However, these sound absorbing materials have the following drawbacks.

グラスウールおよびアルミニウム多孔質材は、融点が低
いため、排気ガスの熱によって溶は易く、またグラスウ
ールは飛散し易い。セラミックは耐熱性はあるものの、
振動や衝撃に弱く、割れを生じたり破壊したりすること
がある。
Glass wool and porous aluminum materials have low melting points, so they are easily melted by the heat of exhaust gas, and glass wool is easily scattered. Although ceramic is heat resistant,
It is sensitive to vibrations and shocks and may crack or break.

このような吸音材を用いたマフラーを長時間使用した場
合には、上記欠点が現われ、音圧を減少する効果が少な
くなり、十分な消音効果を得ることができなくなる。
When a muffler using such a sound-absorbing material is used for a long time, the above-mentioned drawbacks appear, the effect of reducing sound pressure decreases, and a sufficient sound-dampening effect cannot be obtained.

従って、従来のマフラーでは、長期間にわたり十分な消
音効果を得るために、上記吸音材を使用せず、主に気体
の膨張、圧縮によって減音させる構造のものが用いられ
ていたため、マフラーの全長く流路長)を長くしなけれ
ばならなかった。
Therefore, in order to obtain a sufficient sound deadening effect over a long period of time, conventional mufflers did not use the above-mentioned sound-absorbing materials, and instead used structures that mainly reduced sound through the expansion and compression of gas. The flow path length) had to be increased.

しかしながら、マフラー内の流路長を長くすると排気抵
抗が増大し、パワーロスにつながるとともに、マフラー
の重量が重くなり、また自動車の車体下部に取り付ける
マフラーにはスペース面でサイズ上の制約をうけるため
、マフラーの全長を長くすることは好ましくない。
However, increasing the length of the flow path inside the muffler increases exhaust resistance, leading to power loss and increasing the weight of the muffler.Moreover, mufflers installed at the bottom of the car body are subject to size constraints due to space. It is not desirable to increase the overall length of the muffler.

そこで、コンパクトで消音効果の高いマフラーの開発が
望まれている。
Therefore, it is desired to develop a muffler that is compact and has a high noise reduction effect.

〈発明が解決しようとする問題点〉 本発明の目的は、上述した従来技術の欠点を解消し、マ
フラー全長を長くすることなく、消音効果の高いコンパ
クトなマフラーを提供することにある。
<Problems to be Solved by the Invention> An object of the present invention is to eliminate the above-mentioned drawbacks of the prior art and provide a compact muffler with a high noise reduction effect without increasing the overall length of the muffler.

〈問題点を解決するための手段〉 このような目的は、以下の本発明によって達成される。〈Means for solving problems〉 Such objects are achieved by the following invention.

即ち、本発明の第1の態様は、マフラー本体と、前記マ
フラー本体に接続される排気ガス導入管および導出管と
、前記マフラー本体内に設置され、主排気ガス流路を限
定する金属多孔質材製の管状部材と、前記管状部材と前
記マフラー本体との間を複数の共鳴室に仕切る環状の仕
切板と、前記各共鳴室内に、該共鳴室を内側共鳴室と外
側共鳴室に2分するよう設置された多孔を有する筒体と
を有することを特徴とするマフラーである。
That is, a first aspect of the present invention includes a muffler body, an exhaust gas inlet pipe and an exhaust gas outlet pipe connected to the muffler body, and a metal porous material installed in the muffler body to limit a main exhaust gas flow path. a tubular member made of wood, an annular partition plate that partitions the space between the tubular member and the muffler body into a plurality of resonance chambers, and within each resonance chamber, the resonance chamber is divided into an inner resonance chamber and an outer resonance chamber. This muffler is characterized by having a cylindrical body having porous holes installed so as to.

また、本発明の第2の態様は、マフラー本体と、前記マ
フラー本体に接続される排気ガス導入管および導出管と
、前記マフラー本体内に設置され、主排気ガス流路を限
定する金属多孔質材製の管状部材と、前記管状部材と前
記マフラー本体との間を複数の共鳴室に仕切る環状の仕
切板と、前記各共鳴室内に、該共鳴室を内側共鳴室と外
側共鳴室に2分するよう設置された多孔を有する筒体と
、前記内側共鳴室内に挿入された耐熱性繊維体とを有す
ることを特徴とするマフラーである。
Further, a second aspect of the present invention includes a muffler body, an exhaust gas introduction pipe and an exhaust gas outlet pipe connected to the muffler body, and a metal porous body installed in the muffler body and defining a main exhaust gas flow path. a tubular member made of wood, an annular partition plate that partitions the space between the tubular member and the muffler body into a plurality of resonance chambers, and within each resonance chamber, the resonance chamber is divided into an inner resonance chamber and an outer resonance chamber. This muffler is characterized in that it has a cylindrical body having porous holes installed so as to cause a heat-resistant fibrous body inserted into the inner resonance chamber.

ここで前記管状部材は、直管、テーバ管または多段管で
あるのがよい。
Here, the tubular member is preferably a straight pipe, a Taber pipe, or a multistage pipe.

また、前記管状部材は、ステンレス多孔質材で構成され
ているのがよい。
Further, the tubular member is preferably made of a porous stainless steel material.

そして、貯泥耐熱性繊維体は、ロックウールであるのが
よい。
The heat-resistant fibrous material for storing mud is preferably rock wool.

以下、本発明のマフラーを添付図面に示す好適実施例に
ついて詳細に説明する。
Hereinafter, preferred embodiments of the muffler of the present invention shown in the accompanying drawings will be described in detail.

第1図および第2図は、各々、本発明の第1の態様およ
び第2の態様のマフラー1の一構成例を示す縦断面図で
ある。
FIG. 1 and FIG. 2 are longitudinal sectional views showing an example of the structure of a muffler 1 according to a first aspect and a second aspect of the present invention, respectively.

これらのマフラー1は、マフラー本体2を有し、その両
端に排気ガスの導入管3および導出管4が接続されてい
る。
These mufflers 1 have a muffler main body 2, and an exhaust gas inlet pipe 3 and an exhaust gas outlet pipe 4 are connected to both ends of the muffler main body 2.

マフラー本体1内には、マフラーを通過する排気ガスの
主な流路を限定する金属多孔質材製の管状部材7が設置
されている。なお、管状部材7は、強度不足による変形
を防止するために後述する複数の仕切板6により、マフ
ラー本体!に対し支持されているのがよい。
A tubular member 7 made of a porous metal material is installed within the muffler body 1 to limit the main flow path of exhaust gas passing through the muffler. In addition, in order to prevent the tubular member 7 from being deformed due to insufficient strength, a plurality of partition plates 6, which will be described later, are used to form the muffler body. It is good to have support for

管状部材7の内径d、と導入管3の内径d2および導出
管4の内径d3との関係は、排気ガスの流れを防げるこ
となく、スムースに排気を行うためにd1≧d2.d、
≧d3とするのがよい。
The relationship between the inner diameter d of the tubular member 7, the inner diameter d2 of the inlet pipe 3, and the inner diameter d3 of the outlet pipe 4 is such that d1≧d2. d,
It is preferable that ≧d3.

ここで管状部材7を構成する金属多孔質材とは、例えば
金属繊維の織物または不織布、金属網、エクスパンドメ
タル、またはこれらの積層体等、金属をベースに多くの
気孔を有し、気体がある程度通過しつるものをいう。な
お、マフラーの吸音効率は、排気ガス流路を構成する管
状部材7の気孔率と、流れ抵抗係数により決定されるた
め、本発明では、諸条件に応じ最大の吸音効率を得られ
るような気孔率および流れの抵抗係数の金属多孔質材を
適宜選定して用いればよい。
Here, the metal porous material that constitutes the tubular member 7 is, for example, metal fiber woven or nonwoven fabric, metal net, expanded metal, or a laminate thereof, which is based on metal and has many pores, and has a certain amount of gas. It refers to something that passes through. Note that the sound absorption efficiency of the muffler is determined by the porosity of the tubular member 7 constituting the exhaust gas flow path and the flow resistance coefficient. A metal porous material having a suitable flow rate and flow resistance coefficient may be selected and used.

このような金属多孔質材は、アルミニウム、銅、鋼等い
かなる金属で構成されていてもよいが、耐熱性の点から
(排気ガスの温度が800〜900℃の高温になること
がある)、ステンレス多孔質材であるのがよい。具体的
には、ステンレス繊維をステンレス網に焼結したステン
レス多孔質板またはステンレス網を数枚重ねて管状に巻
いたものを用いるのがよい。
Such metal porous materials may be made of any metal such as aluminum, copper, steel, etc., but from the viewpoint of heat resistance (the temperature of exhaust gas may reach a high temperature of 800 to 900 ° C.), Preferably, it is made of porous stainless steel material. Specifically, it is preferable to use a porous stainless plate made of stainless steel fibers sintered into a stainless steel mesh, or a stainless steel mesh made by stacking several sheets and winding them into a tubular shape.

例えば、気孔率を調整するために、網目の大きさの異な
るステンレス網(例えば60メツシユと200メツシユ
)を2枚重ねて用いることもできる。
For example, in order to adjust the porosity, two sheets of stainless steel mesh having different mesh sizes (for example, 60 mesh and 200 mesh) may be used.

なお、金属多孔質材は1!91の金属に限らず、合金ま
たは異種金属を組み合わせたくH4層、編み込み等)も
のでもよい。
Note that the metal porous material is not limited to 1!91 metal, but may also be an alloy or a combination of different metals (H4 layer, braid, etc.).

金属多孔質材7とマフラー本体2の間には、空間が形成
されており、この空間内に環状の仕切板6を設置するこ
とによって、複数のドーナツ状の共鳴室5に仕切られる
A space is formed between the metal porous material 7 and the muffler body 2, and by installing an annular partition plate 6 in this space, the space is partitioned into a plurality of donut-shaped resonance chambers 5.

このように適当な大きさの共鳴室5を設けることによっ
て、吸音効果が高まる。
By providing the resonance chamber 5 of an appropriate size in this manner, the sound absorption effect is enhanced.

各共鳴室5内には、共鳴室5を内側共鳴室5aと外側共
鳴室5bに2分するように多数の孔9を有する筒体8が
設置されている。
A cylindrical body 8 having a large number of holes 9 is installed in each resonance chamber 5 so as to divide the resonance chamber 5 into two into an inner resonance chamber 5a and an outer resonance chamber 5b.

この筒体8は例えばパンチングメタルのようなもので構
成するのがよく、その多数の孔9が多数の小さなヘルム
ホルツレゾネータ(共鳴型消音器)として作用し、消音
効果を発揮する。
This cylindrical body 8 is preferably made of a material such as punched metal, and its many holes 9 act as many small Helmholtz resonators (resonance-type mufflers) to exhibit a sound-deadening effect.

ヘルムホルツレゾネータは、ある特定の周波数前後にお
いて大きな減衰即ち大きな消音効果を得る。
A Helmholtz resonator achieves large attenuation, that is, a large silencing effect, around a certain frequency.

その共鳴周波数は次式(1)で示される。The resonance frequency is expressed by the following equation (1).

1“2・ f11=   ・・・・(1)■ ここで f:共鳴周波数 C:音速 d:孔の直径 ■=背後空気層の体積 従って、最大の消音効果を得るための孔9の直径は、背
後空気層の体MV即ち外側共鳴室5bの容積により定ま
る。マフラーの場合は、背後空気層の容積が比較的小さ
いので孔9の直径は比較的小さくてよく、周波数にも影
響するが直径5〜15ma+程度が好ましい。
1"2・f11= ...(1) ■ Where f: Resonance frequency C: Speed of sound d: Diameter of hole ■ = Volume of back air layer. Therefore, the diameter of hole 9 to obtain the maximum silencing effect is is determined by the body MV of the rear air layer, that is, the volume of the outer resonance chamber 5b.In the case of a muffler, the volume of the rear air layer is relatively small, so the diameter of the hole 9 may be relatively small. Approximately 5 to 15 ma+ is preferable.

なお、孔9の形状は必ずしも円形である必要はなく、ま
た孔9の多孔率も特に限定されない。
Note that the shape of the pores 9 does not necessarily have to be circular, and the porosity of the pores 9 is not particularly limited.

上述した第1図に示す構成のマフラー1により十分な消
音効果を発揮することができるが、さらに消音効果を高
めるために、第2図に示すように各内側共鳴室5a内に
耐熱性繊維体10を挿入する。この耐熱性繊維体10と
しては、ロックウールを用いるのが好ましいが、その他
排気ガスの温度(600〜800℃)により、溶融しな
い&a維体であればいかなるものでもよく、例えば石綿
等が使用可能である。
The muffler 1 having the configuration shown in FIG. 1 described above can exhibit a sufficient silencing effect, but in order to further enhance the silencing effect, a heat-resistant fibrous material is provided in each inner resonance chamber 5a as shown in FIG. 2. Insert 10. As the heat-resistant fiber 10, it is preferable to use rock wool, but any other material may be used as long as it does not melt depending on the temperature of the exhaust gas (600 to 800°C). For example, asbestos can be used. It is.

また、耐熱性繊維体10、特にロックウールの密度は、
40〜120にg/cs3程度のも程度よい。
Moreover, the density of the heat-resistant fiber body 10, especially rock wool, is
40-120 g/cs3 is also good.

なお、本発明(第1および第2の態様)においては、第
1図および第2図に示すように、管状部材7が直管のも
のに限定されず、例えば第3図に示すような排気ガスの
流れ方向に従って管径が漸減する(Ws増でもよい)テ
ーパ管、あるいは、第4図に示すような排気ガスの流れ
方向に従って管径が段階的に減少する(増加でもよい)
多段管であってもよい。また、管状部材7は、ベンド管
であってもよい。排気ガスの流速が比較的低い場合には
、管状部材7を第3図、第4図に示すようなテーパ管ま
たは多段管とすることにより、より消音効果を高めるこ
とができる。
In addition, in the present invention (first and second aspects), the tubular member 7 is not limited to a straight pipe as shown in FIGS. A tapered pipe whose pipe diameter gradually decreases (Ws may increase) according to the gas flow direction, or a tapered pipe whose pipe diameter gradually decreases (ws may increase) according to the exhaust gas flow direction as shown in Fig. 4.
It may be a multistage pipe. Further, the tubular member 7 may be a bent pipe. When the flow rate of the exhaust gas is relatively low, the noise reduction effect can be further enhanced by forming the tubular member 7 into a tapered pipe or a multistage pipe as shown in FIGS. 3 and 4.

〈作 用〉 以下、本発明のマフラーの作用を説明する。<For production> The operation of the muffler of the present invention will be explained below.

排気系から来る排気ガスは、マフラー1の排気ガス導入
管3よりマフラー本体2内に入り、金属多孔質材製の管
状部材7内を通過して、排気ガス導出管4より外部へ排
出される。
Exhaust gas coming from the exhaust system enters the muffler body 2 through the exhaust gas inlet pipe 3 of the muffler 1, passes through the tubular member 7 made of porous metal material, and is discharged to the outside through the exhaust gas outlet pipe 4. .

マフラーにおける基本的な作用として、排気ガスが排気
ガス導入管3よりマフラー本体2内へ導入されるときに
流路の断面積が拡大することによって消音がなされる他
、本発明のマフラー1においては、排気ガスが管状部材
7の管路を通過する際金属多孔質材の諸性質により境界
層の抑制、消失による管内流速分布の平滑化、共鳴型消
音器としての作用、音響的作用、音源体積の減少および
管路摩擦の増大による圧力損出の増加が生じ、これらの
相互作用によって消音効果が生じる。
The basic function of a muffler is that when exhaust gas is introduced into the muffler body 2 from the exhaust gas introduction pipe 3, noise is muffled by expanding the cross-sectional area of the flow path. , When exhaust gas passes through the pipe of the tubular member 7, the properties of the metal porous material suppress the boundary layer, smooth the flow velocity distribution in the pipe by eliminating it, act as a resonant muffler, acoustic effect, and sound source volume. This results in an increase in pressure drop due to a decrease in the amount of water and an increase in pipe friction, and their interaction produces a sound-deadening effect.

そして、排気ガスが管状部材7内を通過する際、金属多
孔質材の通気性により排気ガスが管壁を透過し、内側共
鳴室5aにより共鳴減衰の作用を生じ、さらに、排気ガ
スが筒体8の多数の孔9を通過して、外側共鳴室5bに
より共鳴減衰の作用を生じるので、消音効果が高まる。
When the exhaust gas passes through the tubular member 7, the exhaust gas passes through the tube wall due to the air permeability of the porous metal material, and resonance damping is caused by the inner resonance chamber 5a. 8 and a large number of holes 9, and the outer resonance chamber 5b produces a resonance attenuating effect, thereby increasing the silencing effect.

特に内側共鳴室5a内に耐熱性繊維体10を挿入した場
合には、この耐熱性繊維体ioが振動を吸収し、さらに
吸音効率を高めるので、より高い消音効果を得ることが
できる。
In particular, when the heat-resistant fibrous body 10 is inserted into the inner resonance chamber 5a, the heat-resistant fibrous body io absorbs vibrations and further improves the sound absorption efficiency, so that a higher sound damping effect can be obtained.

〈実施例〉 (本発明例1) 第1図に示す構造のマフラーを作製した。このマフラー
の各所の寸法は次の通りである。なお、筒体にはパンチ
ングメタルを用い、管状部材には、多孔率51%の多孔
質ステンレス焼結材を用いた。
<Example> (Example 1 of the present invention) A muffler having the structure shown in FIG. 1 was manufactured. The dimensions of each part of this muffler are as follows. Note that punching metal was used for the cylindrical body, and porous stainless steel sintered material with a porosity of 51% was used for the tubular member.

排気ガス導入管の内径d、:32Iluiφ排気ガス導
入管の長さ:40mm マフラー本体の内径:62mmφ マフラー本体の長さ:200mm 筒体の内径:56mmφ 筒体の孔の径:5mmφ 管状部材の内径d、:53mmφ 仕切板:50mm間隔で3枚設置 排気ガス導出管の内径d3 :50mmφ排気ガス排気
ガス導入管40mm (本発明例2) 本発明例1と同様のマフラーを作製し、内側共鳴室内に
耐熱性繊維体として密度50 Kg/cm3のロックウ
ールを挿入した。
Inner diameter of exhaust gas inlet pipe d: 32Iluiφ Length of exhaust gas inlet tube: 40mm Inner diameter of muffler body: 62mmφ Length of muffler body: 200mm Inner diameter of cylinder body: 56mmφ Diameter of hole in cylinder body: 5mmφ Inner diameter of tubular member d,: 53mmφ Partition plate: 3 pieces installed at 50mm intervals Inner diameter of exhaust gas outlet pipe d3: 50mmφ Exhaust gas Exhaust gas inlet pipe 40mm (Example 2 of the present invention) A muffler similar to Example 1 of the present invention was fabricated, and the inner resonance chamber was Rock wool with a density of 50 Kg/cm3 was inserted as a heat-resistant fiber.

(比較例) 第5図に示す従来構造のマフラーを作製した。(Comparative example) A muffler with a conventional structure shown in FIG. 5 was manufactured.

このマフラーのマフラー本体の内径および長さ、排気ガ
ス導入管および導出管の内径および長さはすべて本発明
例1と同様とした。
The inner diameter and length of the muffler body of this muffler, and the inner diameter and length of the exhaust gas introduction pipe and outlet pipe were all the same as those in Example 1 of the present invention.

これら本発明例1.2および比較例の各マフラーの排気
ガス導入管に総排気量2000ccのディーゼルエンジ
ンのエキゾーストパイプを連結し、エンジン回転数40
00 rpmのときの排気騒音を測定した。その結果を
第6図のグラフに示す。
An exhaust pipe of a diesel engine with a total displacement of 2000 cc was connected to the exhaust gas introduction pipe of each muffler of Inventive Example 1.2 and Comparative Example, and the engine rotation speed was 40.
The exhaust noise was measured at 0.00 rpm. The results are shown in the graph of FIG.

なお、排気騒音の測定は、各マフラーの排気ガス導出管
末端から1m後方に離れた地点で行った。
Note that the exhaust noise was measured at a point 1 m behind the end of the exhaust gas outlet pipe of each muffler.

第6図のグラフから明らかなように、本発明例1および
2のマフラーは、比較例のマフラーに比べ周波数のほぼ
全域にわたフて騒音レベルが低減しており、消音効果に
優れることがわかる。
As is clear from the graph in FIG. 6, the mufflers of Examples 1 and 2 of the present invention have lower noise levels across almost the entire frequency range than the mufflers of Comparative Examples, indicating that they have excellent silencing effects. .

特に、内側共鳴室内に耐熱性繊維体を挿入した本発明例
2のマフラーは、800〜6000Hzの範囲における
騒音レベルが顕著に低減されており、より消音効果が高
い。
In particular, the muffler of Example 2 of the present invention in which a heat-resistant fiber body is inserted into the inner resonant chamber has a significantly reduced noise level in the range of 800 to 6000 Hz, and has a higher noise reduction effect.

〈発明の効果〉 本発明のマフラーによれば、マフラー本体内に主な流路
を限定する金属多孔質材製の管状部材を設け、さらにこ
の管状部材とマフラー本体との間に多孔を有する筒体に
より2分された内側および外側共鳴室を設けたことによ
り、マフラー全長即ち排気ガスが通過する流路の長さを
長くすることなく、消音効果を高めることができる。
<Effects of the Invention> According to the muffler of the present invention, a tubular member made of a porous metal material is provided in the muffler body to limit the main flow path, and a tube having porous holes is further provided between the tubular member and the muffler body. By providing the inner and outer resonance chambers divided into two by the body, the muffling effect can be enhanced without increasing the overall length of the muffler, that is, the length of the flow path through which exhaust gas passes.

特に本発明の第2の態様のマフラーでは、内側共鳴室内
に耐熱性繊維体を挿入したことにより、一層消音効果が
高まる。
In particular, in the muffler of the second aspect of the present invention, the heat-resistant fibrous body is inserted into the inner resonance chamber, which further enhances the silencing effect.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図および第2図は、各々本発明のマフラーの一構成
例を示す縦断面図である。 第3図および第4図は、各々本発明のマフラーの他の例
の構成例を示す縦断面図である。 第5図は、実施例における従来構造のマフラーの縦断面
図である。 第6図は、実施例における周波数と騒音レベルとの関係
を示すグラフである。 符号の説明 1・・・マフラー、 2・・・マフラー本体。 3・・・排気ガス導入管、 4・・排気ガス導出管、 5・・・共鳴室、 5a・・・内側共鳴室、 5b・・外側共鳴室、 6・・・仕切板、 7・・・管状部材、 8・・・筒体、 9・・・孔、 10・・・耐熱性繊維体
FIG. 1 and FIG. 2 are longitudinal sectional views each showing an example of the structure of a muffler of the present invention. FIGS. 3 and 4 are longitudinal cross-sectional views showing other examples of the structure of the muffler of the present invention. FIG. 5 is a longitudinal cross-sectional view of a conventional muffler according to an embodiment. FIG. 6 is a graph showing the relationship between frequency and noise level in the example. Explanation of symbols 1...Muffler, 2...Muffler body. 3... Exhaust gas introduction pipe, 4... Exhaust gas outlet pipe, 5... Resonance chamber, 5a... Inner resonance chamber, 5b... Outer resonance chamber, 6... Partition plate, 7... Tubular member, 8... Cylindrical body, 9... Hole, 10... Heat resistant fiber body

Claims (9)

【特許請求の範囲】[Claims] (1)マフラー本体と、 前記マフラー本体に接続される排気ガス導入管および導
出管と、 前記マフラー本体内に設置され、主排気ガス流路を限定
する金属多孔質材製の管状部材と、 前記管状部材と前記マフラー本体との間を複数の共鳴室
に仕切る環状の仕切板と、 前記各共鳴室内に、該共鳴室を内側共鳴室と外側共鳴室
に2分するよう設置された多孔を有する筒体とを有する
ことを特徴とするマフラー。
(1) a muffler main body; an exhaust gas inlet pipe and an exhaust gas outlet pipe connected to the muffler main body; a tubular member made of a porous metal material that is installed within the muffler main body and limits a main exhaust gas flow path; an annular partition plate that partitions the space between the tubular member and the muffler body into a plurality of resonance chambers; and a porous hole installed in each of the resonance chambers so as to divide the resonance chamber into an inner resonance chamber and an outer resonance chamber. A muffler characterized by having a cylindrical body.
(2)前記管状部材は、テーパ管である特許請求の範囲
第1項に記載のマフラー。
(2) The muffler according to claim 1, wherein the tubular member is a tapered pipe.
(3)前記管状部材は、多段管である特許請求の範囲第
1項に記載のマフラー。
(3) The muffler according to claim 1, wherein the tubular member is a multistage pipe.
(4)前記管状部材は、ステンレス多孔質材で構成され
ている特許請求の範囲第1項ないし第3項のいずれかに
記載のマフラー。
(4) The muffler according to any one of claims 1 to 3, wherein the tubular member is made of porous stainless steel material.
(5)マフラー本体と、 前記マフラー本体に接続される排気ガス導入管および導
出管と、 前記マフラー本体内に設置され、主排気ガス流路を限定
する金属多孔質材製の管状部材と、 前記管状部材と前記マフラー本体との間を複数の共鳴室
に仕切る環状の仕切板と、 前記各共鳴室内に、該共鳴室を内側共鳴室と外側共鳴室
に2分するよう設置された多孔を有する筒体と、 前記内側共鳴室内に挿入された耐熱性繊維体とを有する
ことを特徴とするマフラー。
(5) a muffler main body; an exhaust gas introduction pipe and a discharge pipe connected to the muffler main body; a tubular member made of a porous metal material that is installed within the muffler main body and limits a main exhaust gas flow path; an annular partition plate that partitions the space between the tubular member and the muffler body into a plurality of resonance chambers; and a porous hole installed in each of the resonance chambers so as to divide the resonance chamber into an inner resonance chamber and an outer resonance chamber. A muffler comprising: a cylindrical body; and a heat-resistant fiber body inserted into the inner resonance chamber.
(6)前記管状部材は、テーパ管である特許請求の範囲
第5項に記載のマフラー。
(6) The muffler according to claim 5, wherein the tubular member is a tapered pipe.
(7)前記管状部材は、多段管である特許請求の範囲第
5項に記載のマフラー。
(7) The muffler according to claim 5, wherein the tubular member is a multistage pipe.
(8)前記管状部材は、ステンレス多孔質材で構成され
ている特許請求の範囲第5項ないし第7項のいずれかに
記載のマフラー。
(8) The muffler according to any one of claims 5 to 7, wherein the tubular member is made of porous stainless steel material.
(9)前記耐熱性繊維体は、ロックウールである特許請
求の範囲第5項ないし第8項のいずれかに記載のマフラ
ー。
(9) The muffler according to any one of claims 5 to 8, wherein the heat-resistant fibrous body is rock wool.
JP1955287A 1987-01-29 1987-01-29 Muffler Pending JPS63186907A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1955287A JPS63186907A (en) 1987-01-29 1987-01-29 Muffler

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1955287A JPS63186907A (en) 1987-01-29 1987-01-29 Muffler

Publications (1)

Publication Number Publication Date
JPS63186907A true JPS63186907A (en) 1988-08-02

Family

ID=12002478

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1955287A Pending JPS63186907A (en) 1987-01-29 1987-01-29 Muffler

Country Status (1)

Country Link
JP (1) JPS63186907A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7278514B1 (en) * 2003-10-17 2007-10-09 The United States Of America As Represented By The Secretary Of The Navy Acoustic noise filter
WO2008098330A2 (en) * 2007-02-13 2008-08-21 Whirlpool S.A. Constructive arrangement of an acoustic filter for a refrigeration compressor
US9708936B2 (en) 2012-10-11 2017-07-18 Mitsubishi Hitachi Power Systems, Ltd. Condenser
CN109790768A (en) * 2016-09-23 2019-05-21 三星重工业株式会社 A kind of muffler and its maintaining method
KR20190074716A (en) * 2017-12-20 2019-06-28 비앤알(주) Silencer for Inflator
WO2023188924A1 (en) * 2022-03-28 2023-10-05 富士フイルム株式会社 Ventilation-type silencer

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7278514B1 (en) * 2003-10-17 2007-10-09 The United States Of America As Represented By The Secretary Of The Navy Acoustic noise filter
WO2008098330A2 (en) * 2007-02-13 2008-08-21 Whirlpool S.A. Constructive arrangement of an acoustic filter for a refrigeration compressor
WO2008098330A3 (en) * 2007-02-13 2008-10-09 Whirlpool Sa Constructive arrangement of an acoustic filter for a refrigeration compressor
US9708936B2 (en) 2012-10-11 2017-07-18 Mitsubishi Hitachi Power Systems, Ltd. Condenser
CN109790768A (en) * 2016-09-23 2019-05-21 三星重工业株式会社 A kind of muffler and its maintaining method
JP2019534414A (en) * 2016-09-23 2019-11-28 サムスン・ヘヴィー・インダストリーズ・カンパニー・リミテッド Silencer and maintenance method of the silencer
CN109790768B (en) * 2016-09-23 2022-01-25 三星重工业株式会社 Silencer and maintenance method thereof
KR20190074716A (en) * 2017-12-20 2019-06-28 비앤알(주) Silencer for Inflator
WO2023188924A1 (en) * 2022-03-28 2023-10-05 富士フイルム株式会社 Ventilation-type silencer

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