JPH0825504B2 - Vehicle exhaust control device - Google Patents
Vehicle exhaust control deviceInfo
- Publication number
- JPH0825504B2 JPH0825504B2 JP2698187A JP2698187A JPH0825504B2 JP H0825504 B2 JPH0825504 B2 JP H0825504B2 JP 2698187 A JP2698187 A JP 2698187A JP 2698187 A JP2698187 A JP 2698187A JP H0825504 B2 JPH0825504 B2 JP H0825504B2
- Authority
- JP
- Japan
- Prior art keywords
- exhaust
- engine
- control valve
- exhaust control
- exhaust 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.)
- Expired - Lifetime
Links
Landscapes
- Exhaust Silencers (AREA)
- Control Of Throttle Valves Provided In The Intake System Or In The Exhaust System (AREA)
- Characterised By The Charging Evacuation (AREA)
Description
【発明の詳細な説明】 (産業上の利用分野) 本発明は、V型4気筒エンジンを搭載した自動二輪車
などの車輌に適用され、排気管に排気制御弁を装着した
排気制御装置に関するものである。Description: TECHNICAL FIELD The present invention relates to an exhaust control device which is applied to a vehicle such as a motorcycle equipped with a V-type 4-cylinder engine and has an exhaust control valve attached to an exhaust pipe. is there.
(発明の背景) 4サイクルエンジン、2サイクルエンジン等では、排
気弁の開閉により排気が間欠的に排気管に導かれ、排気
管内に排気の慣性効果および脈動効果が発生することが
知られている。これらの効果(動的効果という)は、エ
ンジン回転速度により変化する。従って或る回転速度で
この動的効果を最大にして体積効率を高めると、他の回
転速度では動的効果が逆に作用して体積効率が著しく低
下する。このため、高回転域でこの動的効果が最適にな
るように排気系の諸元(排気管長、排気管径など)を設
定した場合には、中速域でトルクの著しい減少(トルク
谷)が発生するという問題があった。(Background of the Invention) In a 4-cycle engine, a 2-cycle engine, etc., it is known that exhaust gas is intermittently guided to an exhaust pipe by opening and closing an exhaust valve, and an inertial effect and a pulsating effect of the exhaust gas are generated in the exhaust pipe. . These effects (called dynamic effects) change depending on the engine speed. Therefore, if the dynamic effect is maximized to increase the volumetric efficiency at a certain rotation speed, the dynamic effect is adversely affected at other rotation speeds, and the volumetric efficiency is significantly reduced. For this reason, when the exhaust system specifications (exhaust pipe length, exhaust pipe diameter, etc.) are set so that this dynamic effect is optimal in the high rotation range, the torque is significantly reduced in the middle speed range (torque valley). There was a problem that occurs.
そこで排気管に排気流路面積を変える排気制御弁を設
け、体積効率が低下する回転速度域では流路面積を減少
し、他の回転速度域では流路面積を増大させるようにす
ることが提案されている(特願昭60-263752号)。Therefore, it is proposed that the exhaust pipe be equipped with an exhaust control valve that changes the exhaust flow passage area so that the flow passage area is reduced in the rotational speed region where volume efficiency decreases and the flow passage area is increased in other rotational speed regions. (Japanese Patent Application No. 60-263752).
また多気筒エンジンでは各排気管の下流側を膨張室で
合流させると、気筒間の排気干渉による体積効率の低下
およびトルクの低下を引き起こすことがある。そこで各
排気管毎に排気制御弁を設け、排気干渉による悪影響が
生じる回転速度域でこの制御弁を閉じて排気流路面積を
減少させることが提案されている(特願昭60-263753
号)。Further, in a multi-cylinder engine, if the downstream side of each exhaust pipe is joined in the expansion chamber, the volume efficiency and torque may be reduced due to exhaust interference between the cylinders. Therefore, it has been proposed to provide an exhaust control valve for each exhaust pipe and close the control valve in the rotational speed range where adverse effects due to exhaust interference occur to reduce the exhaust flow passage area (Japanese Patent Application No. 60-263753).
issue).
また排気管の背圧を制御することにより燃焼を改善し
たり自己EGR(排気再循環)を制御して排気成分の制御
を行ったりすることも考えられている。It is also considered to improve combustion by controlling the back pressure of the exhaust pipe or to control the exhaust gas component by controlling self-EGR (exhaust gas recirculation).
このように、体積効率の向上、燃焼改善、排気成分制
御などの種々の目的で排気管に排気流路面積を変える排
気制御弁を設けることが考えられる。Thus, it is conceivable to provide the exhaust pipe with an exhaust control valve for changing the exhaust passage area for various purposes such as improvement of volume efficiency, improvement of combustion, and control of exhaust components.
しかし特にV型4気筒エンジンを搭載した自動二輪車
などの車輌では、各気筒の排気管ごとに別々の排気制御
弁を設けることは装置の大型化を招き、その装着スペー
スの確保が困難になる。特にクランク軸を車体幅方向に
配置した前後V型エンジンではV型を形成する各バンク
の排気管は互いに離れた異なるルートを通って膨張室に
接続されるため、前記の問題は一層顕著になる。However, particularly in a vehicle such as a motorcycle equipped with a V-type 4-cylinder engine, providing a separate exhaust control valve for each exhaust pipe of each cylinder leads to an increase in the size of the device, making it difficult to secure a mounting space for the device. In particular, in the front and rear V-type engine in which the crankshaft is arranged in the vehicle width direction, the exhaust pipes of the banks forming the V-shape are connected to the expansion chamber through different routes separated from each other, so that the above-mentioned problem becomes more remarkable. .
(発明の目的) 本発明はこのような事情に鑑みなされたものであり、
特に前後V型4気筒エンジンを搭載した場合に、排気制
御装置の小型化を図り、それらの装着性を向上させ、特
に自動二輪車に適用した場合にはバンク角を大きく確保
することができる車輌の排気制御装置を提供することを
目的とする。(Object of the Invention) The present invention has been made in view of such circumstances,
In particular, when a front and rear V-type four-cylinder engine is mounted, the exhaust control device is downsized, the mountability thereof is improved, and particularly when applied to a motorcycle, a large bank angle can be secured. An object is to provide an exhaust control device.
(発明の構成) 本発明によればこの目的は、車体中央付近に搭載され
前バンクと後バンクとで側面視略V型を形成するV型4
気筒エンジンと、このエンジンの各気筒にそれぞれ接続
された排気管と、前記エンジンの下後方に配設され前記
各排気管の下流側が接続された膨張室と、前記各排気管
の下流端と前記膨張室との間に介在された排気制御弁と
を備える車輌において、前記前バンクの2本の排気管を
前記エンジンの下方から後方へ延出させ、また前記後バ
ンクの2本の排気管を前記エンジンの後方から下降させ
てそれぞれ前記排気制御弁の前面に上下2段に接続した
ことを特徴とする車輌の排気制御装置により達成され
る。(Construction of the Invention) According to the present invention, the object is to mount a V-shaped member 4 near the center of the vehicle body and to form a substantially V-shaped side view with a front bank and a rear bank.
A cylinder engine, an exhaust pipe connected to each cylinder of the engine, an expansion chamber arranged below the engine and connected to a downstream side of each exhaust pipe, a downstream end of each exhaust pipe, and In a vehicle provided with an exhaust control valve interposed between an expansion chamber and the expansion chamber, two exhaust pipes of the front bank are extended rearward from below the engine, and two exhaust pipes of the rear bank are provided. This is achieved by an exhaust control device for a vehicle, which is lowered from the rear of the engine and connected to the front of the exhaust control valve in upper and lower stages.
(実施例) 第1図は本発明の一実施例である自動二輪車用排気系
の平面図、第2図は同じく側面図、第3図はこれを用い
た自動二輪車の側面図、第4図は第2図におけるIV-IV
線断面図、第5図は排気制御弁の一部を断面した平面図
である。(Embodiment) FIG. 1 is a plan view of an exhaust system for a motorcycle according to an embodiment of the present invention, FIG. 2 is a side view of the same, and FIG. 3 is a side view of a motorcycle using the same, and FIG. Is IV-IV in Fig. 2
A line sectional view and FIG. 5 are plan views in which a part of the exhaust control valve is sectioned.
第3図において符号10は4サイクル4気筒V型エンジ
ンであり、車体中央付近に搭載されている。このエンジ
ン10はクランク軸(図示せず)が車体幅方向に配設さ
れ、側面視略V型を形成する前バンク12および後バンク
14は前後方向に分かれていわゆる前後V型エンジンが形
成される。車体フレーム18はエンジン10の側方を通るサ
イドチューブ18aを備え、クランクケース16の前上部が
このサイドチューブ18aに取付けられ、クランクケース1
6の後部は車体フレーム18に取付けられている。In FIG. 3, reference numeral 10 is a four-cycle four-cylinder V-type engine, which is mounted near the center of the vehicle body. The engine 10 has a crankshaft (not shown) arranged in the width direction of the vehicle body, and has a front bank 12 and a rear bank 12 that form a substantially V-shaped side view.
14 is divided in the front-rear direction to form a so-called front-rear V-type engine. The body frame 18 is provided with a side tube 18a passing through the side of the engine 10, and the front upper portion of the crankcase 16 is attached to the side tube 18a.
The rear part of 6 is attached to the body frame 18.
エンジン10の排気系は、前バンク12の2つの気筒の前
面からクランクケース16の下方を通って後方へのびる2
本の排気管20a,20bと、後バンク14の2つの気筒の後面
から下方へのびさらにエンジン10の後方で車体後方へ湾
曲しつつ後方へ向かう排気管20c,20dと、これら各排気
管20(20a〜20d)の下流側が接続される排気制御弁組立
体22と、この排気制御弁組立体22の後面に接続され各排
気管20の排気を集合する膨張室24と、この膨張室24に接
続され車体の右下方から後方へのびる1本の排気マフラ
25とを備える。すなわち各排気管20は排気制御弁組立体
22の前面に上下2段に接続されている。なお膨張室24は
エンジン10の下後方に位置する。The exhaust system of the engine 10 extends from the front of the two cylinders of the front bank 12 through the lower part of the crankcase 16 to the rear 2
Exhaust pipes 20a, 20b, exhaust pipes 20c, 20d extending downward from the rear surfaces of the two cylinders of the rear bank 14 and curving rearward of the engine 10 toward the rear of the vehicle body, and these exhaust pipes 20 ( 20a to 20d) is connected to the downstream side of the exhaust control valve assembly 22, an expansion chamber 24 connected to the rear surface of the exhaust control valve assembly 22 to collect the exhaust gas of each exhaust pipe 20, and connected to the expansion chamber 24. An exhaust muffler that extends from the lower right of the vehicle to the rear
25 and. That is, each exhaust pipe 20 is an exhaust control valve assembly.
It is connected to the front of 22 in two steps. The expansion chamber 24 is located below and behind the engine 10.
排気制御弁組立体22は、各排気管20の排気通路面積を
変える複数の蝶型排気制御弁26(26a〜26d)を備える。
すなわちこの排気制御弁22は、各排気管20に連通してそ
の中心が正方形を形成する孔(28a〜28d)を有するボデ
ー本体22aと、上段の孔28c,28dおよび下段の孔28a,28b
をそれぞれ水平方向に貫通する2本の弁軸30a,30bと、
上の弁軸30aの左端に固定されたプーリ32と、弁軸30bの
左端に固定されたレバー34と、このレバー34とプーリ32
とをつなぐリンク36とを備える。すなわちプーリ32と、
レバー34と、リンク36とで、両弁軸30(30a〜30b)を同
期して回動させるリンク機構Aが形成される。各弁軸30
には各孔28内に位置する円形の弁板38(38a〜38d)が固
定されている。The exhaust control valve assembly 22 includes a plurality of butterfly type exhaust control valves 26 (26a to 26d) that change the exhaust passage area of each exhaust pipe 20.
That is, the exhaust control valve 22 includes a body 22a having holes (28a to 28d) communicating with the exhaust pipes 20 and forming a square center, and upper holes 28c and 28d and lower holes 28a and 28b.
And two valve shafts 30a and 30b that respectively penetrate horizontally in
A pulley 32 fixed to the left end of the upper valve shaft 30a, a lever 34 fixed to the left end of the valve shaft 30b, the lever 34 and the pulley 32.
And a link 36 for connecting with. That is, the pulley 32,
The lever 34 and the link 36 form a link mechanism A for synchronously rotating both valve shafts 30 (30a to 30b). Each valve shaft 30
A circular valve plate 38 (38a to 38d) located in each hole 28 is fixed to the.
弁軸30aの左端に固定されたプーリ32はワイヤ40を介
してサーボモータ42により強制的に両方向に回動される
(第2、3図参照)。このサーボモータ42は、例えば点
火装置44から検出したエンジン回転速度に基づき、体積
効率が悪化する回転領域で各制御弁26を閉じ、その他の
回転領域で開くように制御回路46により制御される。A pulley 32 fixed to the left end of the valve shaft 30a is forcibly rotated in both directions by a servomotor 42 via a wire 40 (see FIGS. 2 and 3). The servomotor 42 is controlled by the control circuit 46 so as to close each control valve 26 in the rotation region where the volume efficiency deteriorates and open it in the other rotation region, for example, based on the engine rotation speed detected from the ignition device 44.
従って排気管20の径および長さなどを、エンジン10が
高速域で体積効率が高くなるように設定した場合には、
制御回路46は中・低速域で排気制御弁26を閉じるように
サーボモータ42を駆動する。下段の排気制御弁26b、26c
はリンク機構Aにより上段の排気制御弁26a,26dと同期
して約45°の排気内でほぼ同一開度に制御される。Therefore, when the diameter and length of the exhaust pipe 20 are set so that the engine 10 has high volume efficiency in the high speed range,
The control circuit 46 drives the servo motor 42 so as to close the exhaust control valve 26 in the medium / low speed range. Lower exhaust control valves 26b, 26c
Are controlled by the link mechanism A in synchronism with the upper exhaust control valves 26a and 26d to have substantially the same opening degree within the exhaust gas of about 45 °.
なおこの実施例では排気制御弁組立体22の排気管20お
よび膨張室24への取付け用フランジ部22A、22Bをプーリ
32側へ突出させ、これらフランジ部22A、22B間に保護板
48を取付けている。この保護板48はプーリ32やリンク機
構Aの外側方を覆い、路面の障害物からこれらを保護す
る。なお保護板48を省きフランジ部22A、22Bをプーリ32
やリンク機構Aよりも外側方へ突出させるだけでも障害
物からこれらを保護する効果は得られる。In this embodiment, the flanges 22A and 22B for attaching the exhaust control valve assembly 22 to the exhaust pipe 20 and the expansion chamber 24 are attached to the pulley.
32 side and protect plate between these flanges 22A and 22B.
48 is installed. The protective plate 48 covers the outer sides of the pulley 32 and the link mechanism A and protects them from obstacles on the road surface. The protective plate 48 is omitted and the flanges 22A and 22B are replaced by the pulley 32.
The effect of protecting them from obstacles can be obtained simply by projecting them outwards from the link mechanism A.
なお第3図において50は前フォーク、52は前輪、54は
ハンドルバー、56は後輪、58は燃料タンク、60は運転シ
ートである。In FIG. 3, 50 is a front fork, 52 is a front wheel, 54 is a handlebar, 56 is a rear wheel, 58 is a fuel tank, and 60 is a driving seat.
次に本実施例の動作を説明する。4本の排気管20の径
および長さなどを、エンジン10が高速域で体積効率が高
くなるように設定した場合には、排気制御弁26は低中速
域で閉じ、高速域で開くようにサーボモータで駆動され
る。Next, the operation of this embodiment will be described. When the diameter and length of the four exhaust pipes 20 are set so that the volumetric efficiency of the engine 10 is high in the high speed range, the exhaust control valve 26 is closed in the low and medium speed range and opened in the high speed range. Driven by a servo motor.
エンジン10の各気筒の排気弁が開弁すると、この開弁
による正のを圧力波は音速で排気管20内を伝播し、その
開口端における急激な膨張により発生する負の圧力波が
排気管20を音速で逆方向に伝播してエンジン10の排気弁
に引き返す。排気制御弁26を閉じておけば、排気弁の開
弁による正の圧力波はこの排気制御弁26で反射され正の
圧力波として音速で排気弁に引き返す。従って動的効果
が逆に作用する低中速域では排気流路面積が1/2になる
ように排気制御弁26を制御すれば、排気管20の開口端に
より発生して引き返す負の圧力波と、排気制御弁26によ
り反射される正の圧力波とが打ち消し合う。この時には
脈動効果が打ち消され、中速域での体積効率の低下(ト
ルク谷の発生)を抑制できる。When the exhaust valve of each cylinder of the engine 10 is opened, the positive pressure wave due to this opening propagates in the exhaust pipe 20 at the speed of sound, and the negative pressure wave generated by the rapid expansion at the open end of the exhaust pipe is generated. 20 propagates in the opposite direction at the speed of sound and returns to the exhaust valve of the engine 10. If the exhaust control valve 26 is closed, the positive pressure wave due to the opening of the exhaust valve is reflected by this exhaust control valve 26 and returns to the exhaust valve as a positive pressure wave at the speed of sound. Therefore, if the exhaust control valve 26 is controlled so that the exhaust flow passage area is halved in the low-medium speed range where the dynamic effect acts in reverse, a negative pressure wave generated by the open end of the exhaust pipe 20 and returned And the positive pressure wave reflected by the exhaust control valve 26 cancel each other out. At this time, the pulsating effect is canceled out, and a decrease in volume efficiency (occurrence of a torque valley) in the medium speed range can be suppressed.
またこの排気制御弁26を気筒間の排気干渉によるトル
ク低下を防止する目的で用いる場合には、排気干渉によ
るトルク低下の著しい回転領域でこの排気制御弁26を閉
じればよい。Further, when the exhaust control valve 26 is used for the purpose of preventing the torque reduction due to the exhaust interference between the cylinders, the exhaust control valve 26 may be closed in a rotation region where the torque reduction due to the exhaust interference is remarkable.
以上の実施例は自動二輪車に本発明を適用し、上下2
段の弁軸30のうち上方の弁軸30aにプーリ32を設けたの
で、車体のバンク角が大きくなる。また1つのプーリ32
をモータ42で駆動し他方の弁軸30bはリンク機構Aによ
り弁軸30aに連動させるので、排気制御弁26の駆動装置
が簡単になる。The above embodiment applies the present invention to a motorcycle, and
Since the upper valve shaft 30a of the stepped valve shaft 30 is provided with the pulley 32, the bank angle of the vehicle body is increased. Also one pulley 32
Is driven by the motor 42 and the other valve shaft 30b is linked with the valve shaft 30a by the link mechanism A, so that the drive device of the exhaust control valve 26 is simplified.
第6図は排気制御弁の他の実施例の側断面図、第7図
はそのVII-VII線断面図である。この排気制御弁組立体1
22は、ボデー122aの前後方向の分割面間に弁軸130を挾
持し、この弁軸130に上段の円孔128c,128dと下段の円孔
128a,128bとに臨む弁板138(138a〜138d)を一体に形成
したものである。FIG. 6 is a side sectional view of another embodiment of the exhaust control valve, and FIG. 7 is a sectional view taken along line VII-VII thereof. This exhaust control valve assembly 1
The reference numeral 22 denotes a valve shaft 130 held between front and rear split surfaces of the body 122a, and the valve shaft 130 has upper and lower circular holes 128c and 128d.
The valve plates 138 (138a to 138d) facing the 128a and 128b are integrally formed.
この実施例によれば、弁軸130を上下段の排気管の中
央付近に1本配設したので、構造が非常に簡単になる。According to this embodiment, one valve shaft 130 is arranged near the center of the upper and lower exhaust pipes, so that the structure is very simple.
(発明の効果) 本発明は以上のように、前バンクの2本の排気管をエ
ンジンの下方から後方へ延出させ、後バンクの2本の排
気管をエンジンの後方から下降させ、これら4本の排気
管をエンジン下後方に配設した排気制御弁の前面に上下
2段に接続したものであるから、排気制御弁を小型化で
き、その装着スペースが小さくなり、その駆動装置も1
つにすれば装置全体の大幅な小型化と軽量化が可能にな
る。また自動二輪車に適用した場合には排気制御弁付近
の横幅を狭くして車体のバンク角を大きく確保できる。(Effects of the Invention) As described above, the present invention extends the two exhaust pipes of the front bank from the lower side of the engine to the rear side, and lowers the two exhaust pipes of the rear bank from the rear side of the engine. Since this exhaust pipe is connected to the front of an exhaust control valve arranged in the lower rear part of the engine in two stages, the exhaust control valve can be downsized, its mounting space can be reduced, and its drive device can be
In this way, the size and weight of the entire device can be greatly reduced. Further, when applied to a motorcycle, the lateral width near the exhaust control valve can be narrowed to secure a large bank angle of the vehicle body.
第1図は本発明の一実施例である自動二輪車用排気系の
平面図、第2図は同じく側面図、第3図はこれを用いた
自動二輪車の側面図、第4図は第2図におけるIV-IV線
断面図、第5図は排気制御弁の一部を断面した平面図で
ある。 また第6図は排気制御弁の他の実施例の断面図第7図は
そのVII-VII線断面図。 10……V型4気筒エンジン、12……前バンク、14……後
バンク、20a〜20d……排気管、22,122……排気制御弁組
立体、24……膨張室、26a〜26d……排気制御弁。FIG. 1 is a plan view of an exhaust system for a motorcycle according to an embodiment of the present invention, FIG. 2 is a side view of the same, FIG. 3 is a side view of a motorcycle using the same, and FIG. FIG. 5 is a sectional view taken along line IV-IV in FIG. 5, and FIG. 5 is a plan view in which a part of the exhaust control valve is sectioned. Further, FIG. 6 is a sectional view of another embodiment of the exhaust control valve, and FIG. 7 is a sectional view taken along line VII-VII thereof. 10 …… V type 4 cylinder engine, 12 …… Front bank, 14 …… Rear bank, 20a ~ 20d …… Exhaust pipe, 22,122 …… Exhaust control valve assembly, 24 …… Expansion chamber, 26a ~ 26d …… Exhaust Control valve.
Claims (1)
クとで側面視略V型を形成するV型4気筒エンジンと、
このエンジンの各気筒にそれぞれ接続された排気管と、
前記エンジンの下後方に配設され前記各排気管の下流側
が接続された膨張室と、前記各排気管の下流端と前記膨
張室との間に介在された排気制御弁とを備える車輌にお
いて、 前記前バンクの2本の排気管を前記エンジンの下方から
後方へ延出させ、また前記後バンクの2本の排気管を前
記エンジンの後方から下降させてそれぞれ前記排気制御
弁の前面に上下2段に接続したことを特徴とする車輌の
排気制御装置。1. A V-type four-cylinder engine mounted near the center of a vehicle body to form a substantially V-shaped side view with a front bank and a rear bank,
An exhaust pipe connected to each cylinder of this engine,
In a vehicle provided with an expansion chamber, which is disposed below and behind the engine and is connected to a downstream side of each exhaust pipe, and an exhaust control valve interposed between a downstream end of each exhaust pipe and the expansion chamber, The two exhaust pipes of the front bank are extended from the lower side of the engine to the rear side, and the two exhaust pipes of the rear bank are lowered from the rear side of the engine so that two exhaust pipes are provided above and below the front face of the exhaust control valve. An exhaust control device for a vehicle, characterized by being connected in stages.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2698187A JPH0825504B2 (en) | 1987-02-06 | 1987-02-06 | Vehicle exhaust control device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2698187A JPH0825504B2 (en) | 1987-02-06 | 1987-02-06 | Vehicle exhaust control device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS63195085A JPS63195085A (en) | 1988-08-12 |
JPH0825504B2 true JPH0825504B2 (en) | 1996-03-13 |
Family
ID=12208334
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2698187A Expired - Lifetime JPH0825504B2 (en) | 1987-02-06 | 1987-02-06 | Vehicle exhaust control device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0825504B2 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4732272B2 (en) * | 2006-08-04 | 2011-07-27 | 本田技研工業株式会社 | Intake system structure of a V-type internal combustion engine for motorcycles |
JP5266987B2 (en) * | 2008-09-10 | 2013-08-21 | スズキ株式会社 | Motorcycle exhaust system |
-
1987
- 1987-02-06 JP JP2698187A patent/JPH0825504B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JPS63195085A (en) | 1988-08-12 |
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