JPH0826788B2 - Exhaust control valve device for vehicle - Google Patents
Exhaust control valve device for vehicleInfo
- Publication number
- JPH0826788B2 JPH0826788B2 JP4529287A JP4529287A JPH0826788B2 JP H0826788 B2 JPH0826788 B2 JP H0826788B2 JP 4529287 A JP4529287 A JP 4529287A JP 4529287 A JP4529287 A JP 4529287A JP H0826788 B2 JPH0826788 B2 JP H0826788B2
- Authority
- JP
- Japan
- Prior art keywords
- control valve
- exhaust control
- exhaust
- cover
- vehicle
- 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
- 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、車体中央付近に搭載されたエンジンの下方
に排気制御弁を設けた車輌に適用される排気制御弁装置
に関するものである。Description: TECHNICAL FIELD The present invention relates to an exhaust control valve device applied to a vehicle in which an exhaust control valve is provided below an engine mounted near the center of a vehicle body.
(発明の背景) エンジンの排気系に排気流路面積を変える排気制御弁
を設けたものがある。例えば排気管の膨張室への開口端
付近にこれを設け、排気系の慣性効果や脈動効果などの
動的効果が体積効率を低下させるように作用する回転速
度域で排気流路面積を減少し、動的効果の影響を消して
出力特性の向上を図るものがすでに提案されている(特
願昭60−263752号)。また多気筒エンジンで気筒間の排
気干渉による悪影響が生じる速度域で排気制御弁を閉じ
ることも提案されている(特願昭60−263753号)。(Background of the Invention) There is an engine in which an exhaust system is provided with an exhaust control valve for changing an exhaust passage area. For example, by providing this near the opening end of the exhaust pipe to the expansion chamber, the exhaust flow passage area is reduced in the rotational speed range where dynamic effects such as the inertial effect and the pulsating effect of the exhaust system act to reduce the volume efficiency. , A method for eliminating the influence of the dynamic effect and improving the output characteristics has already been proposed (Japanese Patent Application No. 60-263752). It has also been proposed to close the exhaust control valve in a multi-cylinder engine in a speed range where exhaust interference between the cylinders adversely affects (Japanese Patent Application No. 60-263753).
さらに排気管の背圧を制御して燃焼を改善したり、排
気ブレーキとして利用するために排気制御弁を設けたも
のもある。Further, there is also one in which an exhaust control valve is provided in order to improve the combustion by controlling the back pressure of the exhaust pipe or to use as an exhaust brake.
一方車体中央付近にエンジンを搭載した自動二輪車な
どの車輌では、この排気制御弁をエンジンの下方に配設
することが考えられる。この場合排気制御弁には路面障
害物が当たり易く、特にこの排気制御弁を開閉するため
の駆動部が傷むと開閉が円滑にできなくなるという問題
が生じる。On the other hand, in vehicles such as motorcycles in which the engine is mounted near the center of the vehicle body, it is conceivable to arrange the exhaust control valve below the engine. In this case, the exhaust control valve is apt to be hit by a road surface obstacle, and in particular, if the drive unit for opening and closing the exhaust control valve is damaged, the opening and closing cannot be smoothly performed.
そこでこの駆動部をカバーで覆い障害物から保護する
ことが考えられるが、排気制御弁は常に高温の排気にさ
らされるため、この場合にはその駆動部付近に、熱によ
るトラブルが発生し易いという問題が生じる。Therefore, it is conceivable to cover this drive unit with a cover to protect it from obstacles, but since the exhaust control valve is always exposed to high-temperature exhaust gas, in this case, trouble due to heat is likely to occur near the drive unit. The problem arises.
(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、
車体中央付近に搭載したエンジンの下方に排気制御弁を
配設する場合に、この排気制御弁側の駆動部を路面障害
物から確実に保護すると共に、この駆動部付近の冷却性
を高めて熱によるトラブルの発生を防止できる車輌の排
気制御弁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,
When the exhaust control valve is installed below the engine mounted near the center of the vehicle body, the drive unit on the exhaust control valve side is reliably protected from road surface obstacles, and the cooling performance in the vicinity of this drive unit is enhanced to improve heat. It is an object of the present invention to provide an exhaust control valve device for a vehicle that can prevent the occurrence of troubles due to the above.
(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
たエンジンと、このエンジンの下方に配設され排気流路
面積を変える排気制御弁とを備える車輌において、前記
排気制御弁側の駆動部に接続されたワイヤを前記排気制
御弁から後方へ延出させる一方、前記駆動部を覆うカバ
ーを前記排気制御弁に固定し、前記排気制御弁とカバー
との合面間には少くとも前方を指向する冷却風取入口と
前記ワイヤを囲んで後方を指向する冷却風流出口とを形
成したことを特徴とする車輌の排気制御弁装置により達
成される。According to the present invention, an object of the present invention is to provide a vehicle equipped with an engine mounted near a center of a vehicle body and an exhaust control valve arranged below the engine to change an exhaust flow passage area. A wire connected to the valve-side drive unit is extended rearward from the exhaust control valve, and a cover that covers the drive unit is fixed to the exhaust control valve, and is provided between the exhaust control valve and the cover. Is achieved by an exhaust control valve device for a vehicle, characterized in that at least a front-directed cooling air inlet and a rear-directed cooling air outlet are formed around the wire.
(実施例) 第1図は本発明の一実施例の分解斜視図、第2図は排
気制御弁の平断面図、第3図はその左側面図、第4図は
同じくカバーを取除いた状態を示す左側面図、第5図は
これを用いた自動二輪車の側面図である。(Embodiment) FIG. 1 is an exploded perspective view of an embodiment of the present invention, FIG. 2 is a plan sectional view of an exhaust control valve, FIG. 3 is a left side view thereof, and FIG. FIG. 5 is a left side view showing a state, and FIG. 5 is a side view of a motorcycle using the same.
第5図において符号10は4サイクル4気筒エンジンで
あり、車体中央付近に搭載されている。このエンジン10
はクランクケース12から斜め上前方へのびるシリンダ14
を有する。排気系は、シリンダ14の前面からクランクケ
ース12の下方にのびる4本の排気管16(16a〜16d)と、
排気管16の後端に接続され各排気管16の排気を集合して
消音器18に導く排気制御弁20とを備える。In FIG. 5, reference numeral 10 is a 4-cycle 4-cylinder engine, which is mounted near the center of the vehicle body. This engine 10
Is a cylinder 14 that extends diagonally upward and forward from the crankcase 12.
Have. The exhaust system includes four exhaust pipes 16 (16a to 16d) extending from the front surface of the cylinder 14 to the lower side of the crankcase 12.
An exhaust control valve (20) connected to the rear end of the exhaust pipe (16) and collecting exhaust gas from each exhaust pipe (16) and guiding it to the silencer (18).
排気制御弁20のボデー22は第2図に示すように、4本
の各排気管16に接続され排気管16と共に排気管を形成す
る分岐管部24(24a〜24d)と、この分岐管部24の下流側
開口端16A〜16Dが開口する膨張室26と、1本の集合管部
27とを備え、これらはステンレス鋳鋼により一体に鋳造
されている。分岐管部24はその上流側の各分岐端が各排
気管16に接続されている。また分岐管部24の下流側開口
端16A〜16Dは縦長の四角形の開口形状とされ、膨張室26
に並列して開口している。前記集合管部27には連結管27
aが一体に結合され前記消音器18はこの連結管27aの後端
に締付具によって着脱可能に接続され、消音器18のみの
交換が可能となっている。As shown in FIG. 2, a body 22 of the exhaust control valve 20 is connected to each of the four exhaust pipes 16 and forms branch pipes 24 (24a to 24d) together with the exhaust pipes 16, and the branch pipes 24. Expansion chamber 26 in which the downstream open ends 16A to 16D of 24 and one collecting pipe section
27 and 27, which are integrally cast from stainless cast steel. Each branch end of the branch pipe portion 24 on the upstream side is connected to each exhaust pipe 16. Further, the downstream opening ends 16A to 16D of the branch pipe portion 24 have a vertically long rectangular opening shape, and the expansion chamber 26
It opens in parallel with. A connecting pipe 27 is provided in the collecting pipe portion 27.
a is integrally connected, and the muffler 18 is detachably connected to the rear end of the connecting pipe 27a by a fastener so that only the muffler 18 can be replaced.
28はクランク状の弁体であり、この弁体28は両端が開
口端16A〜16Dの後方で膨張室26の左右壁に回動自在に軸
支され、その中間部分30は断面弧状に形成されている。
膨張室26の左右壁には円形の開口が形成され、これら開
口は軸受板32、34で閉じられている。弁体28の両端の弁
軸28a,28bはそれぞれ軸受板32、34に軸支され、左側の
弁軸28aは軸受板32を貫通して外へ突出し、この突出端
にはこの排気制御弁20側の駆動部としてのプーリ36が固
定されている。弁体28の中間部分30は前記分岐管部24の
下流側開口すなわち排気管16の下流側開口端16A〜16Dに
対向している。なおこの中間部分30の外周面と排気管16
の下流側開口端16A〜16Dとは、弁軸28a、28bを中心とす
る円弧状に形成され、互いに近接している。プーリ36は
2本のボーデンワイヤ38、38を介してサーボモータ(図
示せず)によってエンジン10の回転速度に対応して回動
され、排気制御弁20は例えばエンジン10の低中速域で閉
じ、高速域で開くように制御される。ここにボーデンワ
イヤ38、38はプーリ36から後上方へ延出している。Reference numeral 28 denotes a crank-shaped valve body, and both ends of the valve body 28 are rotatably supported by the left and right walls of the expansion chamber 26 behind the open ends 16A to 16D, and the intermediate portion 30 is formed in an arc shape in cross section. ing.
Circular openings are formed in the left and right walls of the expansion chamber 26, and these openings are closed by bearing plates 32 and 34. The valve shafts 28a and 28b at both ends of the valve body 28 are axially supported by bearing plates 32 and 34, respectively, and the left valve shaft 28a penetrates through the bearing plate 32 and projects outward, and the exhaust control valve 20 A pulley 36 as a drive unit on the side is fixed. The intermediate portion 30 of the valve element 28 faces the downstream opening of the branch pipe portion 24, that is, the downstream opening ends 16A to 16D of the exhaust pipe 16. The outer peripheral surface of the intermediate portion 30 and the exhaust pipe 16
The downstream open ends 16A to 16D are formed in an arc shape centered on the valve shafts 28a and 28b and are close to each other. The pulley 36 is rotated by a servomotor (not shown) via two Bowden wires 38, 38 in accordance with the rotation speed of the engine 10, and the exhaust control valve 20 is closed in the low and medium speed range of the engine 10, for example. Controlled to open at high speeds. Here, the Bowden wires 38, 38 extend rearward and upward from the pulley 36.
前記排気制御弁20の左側の軸受板32には、ワイヤ受け
40が共締めされ、前記ボーデンワイヤ38のアウタチュー
ブ38aの端部は金属製のワイヤガイド42を介してこのワ
イヤ受け40に取付けられる。すなわちこのワイヤガイド
42は比較的長く作られ、ワイヤ受け40からアウタチュー
ブ38aへ伝わる熱をここで放熱してアウタチューブ38aの
過熱を防ぐ。なおワイヤガイド42はアウタチューブ38a
端部に対し逆転自在にかしめ結合されており、ワイヤガ
イド42からアウタチューブ38aへの伝熱を少なくしてい
る。ワイヤガイド42は第4図に示すように装着され、ワ
イヤガイド42に形成したストッパ42aと、環状溝42bに装
着されたクリップ44とでワイヤ受け40に遊点自在に取付
けられている。これも伝熱を少なくするためである。The bearing plate 32 on the left side of the exhaust control valve 20 has a wire support
40 is fastened together, and the end of the outer tube 38a of the Bowden wire 38 is attached to the wire receiver 40 via a metal wire guide 42. Ie this wire guide
42 is made relatively long, and radiates the heat transmitted from the wire receiver 40 to the outer tube 38a here to prevent overheating of the outer tube 38a. The wire guide 42 is the outer tube 38a.
It is reversely caulkedly coupled to the end portion to reduce heat transfer from the wire guide 42 to the outer tube 38a. The wire guide 42 is attached as shown in FIG. 4, and is attached to the wire receiver 40 in a freely movable manner by a stopper 42a formed on the wire guide 42 and a clip 44 attached to the annular groove 42b. This is also to reduce heat transfer.
このようにボーデンワイヤ38は第4図に示すように2
本取付けられ、2本のインナワイヤ38b、38bは前記プー
リ36に係止される。なおインナワイヤ38b、38bの他端は
サーボモータに接続されていることは前記した通りであ
る。46はプーリ36を覆う金属製のカバーであり、前記軸
受板32に突設した3つのボス32aにビス止めされてい
る。このボス32aは軸受板32の側面より突出し、カバー4
6と軸受板32との合面間に前方および上・下方向を指向
する間隙が形成され、この間隙により冷却風取入口48が
形成される。またカバー46はワイヤ受け40とワイヤガイ
ド42との接続部を間隙をもって囲み、この間隙が後方を
指向する冷却風流出口50となっている。As shown in FIG. 4, the Bowden wire 38 is
The two inner wires 38b, 38b are permanently attached and locked to the pulley 36. As described above, the other ends of the inner wires 38b, 38b are connected to the servomotor. Reference numeral 46 is a metal cover that covers the pulley 36, and is screwed to the three bosses 32a that project from the bearing plate 32. The boss 32a protrudes from the side surface of the bearing plate 32, and the cover 4
Between the mating surfaces of 6 and the bearing plate 32, a gap is formed which is directed forward and upward and downward, and the gap forms a cooling air intake 48. Further, the cover 46 surrounds a connecting portion between the wire receiver 40 and the wire guide 42 with a gap, and this gap serves as a cooling air outflow port 50 directed rearward.
なお第5図において、52は前輪、54は操向ハンドル、
56は燃料タンク、58は運転シート、60は後輪である。In FIG. 5, 52 is a front wheel, 54 is a steering wheel,
56 is a fuel tank, 58 is a driving seat, and 60 is a rear wheel.
従って排気管16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20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。Therefore, when the diameter and length of the exhaust pipe 16 are set so that the engine 10 has high volume efficiency in the high speed range,
The exhaust control valve 20 is driven by a servo motor so as to close in the low and medium speed range and open in the high speed range.
エンジン10の排気弁の開弁による正の圧力波は音速で
排気管16内を伝播し、その開口端16A〜16D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16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。この開
口端16A〜16D付近に位置する排気制御弁20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20
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して体積効率を低下させる中
速域で排気流路面積を約1/2とするように排気制御弁20
を制御すれば、排気管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20により反射される正の圧力
波との和は零となる。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。The positive pressure wave due to the opening of the exhaust valve of the engine 10 propagates in the exhaust pipe 16 at the speed of sound, and the negative pressure wave generated by the rapid expansion at the opening ends 16A to 16D causes the exhaust pipe 16 to travel in the opposite direction at the speed of sound. And propagates back to the exhaust valve of the engine 10. If the exhaust control valve 20 located near the open ends 16A to 16D is closed, a positive pressure wave due to the opening of the exhaust valve will cause this exhaust control valve 20
It is reflected by and returns to the exhaust valve at the speed of sound as a positive pressure wave.
Therefore, the exhaust control valve 20 is designed to reduce the exhaust flow passage area to about 1/2 in the medium speed range where the dynamic effect works in reverse to reduce the volume efficiency.
If the control is performed, the sum of the negative pressure wave generated by the open end of the exhaust pipe and returning and the positive pressure wave reflected by the exhaust control valve 20 becomes zero. 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20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20を閉
じればよい。Further, when the exhaust control valve 20 is used for the purpose of preventing the torque reduction due to the exhaust interference between the cylinders, the exhaust control valve 20 may be closed in the rotation region where the torque reduction due to the exhaust interference is remarkable.
軸受板32とカバー46との合面間に形成された冷却風取
入口48からは走行風がカバー46内に入り、プーリ36やボ
ーデンワイヤ38等の高温部分を冷却し、冷却風流出口50
から後方へ排出される。ここに冷却風流出口50には、カ
バー46の外側を通る走行風による吸い出し効果が作用し
てカバー46内の冷却風は一層良好に排出される。またこ
の時ワイヤ38がこの冷却風流出口50から排出される高速
の冷却風により良好に冷却され得る。なおカバー46は金
属製なのでその放熱性が良い。A running wind enters the cover 46 from a cooling air intake 48 formed between the bearing plate 32 and the cover 46, cools high-temperature parts such as the pulley 36 and the Bowden wire 38, and the cooling air outlet 50.
Is discharged from the rear. Here, the cooling air outflow port 50 has a suction effect by the traveling air passing through the outside of the cover 46, so that the cooling air inside the cover 46 is more favorably discharged. Further, at this time, the wire 38 can be favorably cooled by the high-speed cooling air discharged from the cooling air outlet 50. Since the cover 46 is made of metal, its heat dissipation is good.
本実施例では軸受板32とカバー46との合面間に前方を
指向するものだけでなく、下方を指向する冷却風取入口
48も設けたので、万一カバー46の内側に小石や泥水が入
っても、良好に排出できる効果がある。また冷却風流出
口は本実施例のように後上方を指向するものだけでな
く、ほぼ水平に後方を指向するものや後下方を指向する
もの等であってもよい。In the present embodiment, the cooling air intake not only directed forward but also downward between the mating surfaces of the bearing plate 32 and the cover 46.
Since 48 is also provided, even if pebbles or muddy water enters the inside of the cover 46, it can be effectively discharged. Further, the cooling air outflow port is not limited to one directed to the upper rear as in the present embodiment, but may be one directed to the rear substantially horizontally or one directed to the lower rear.
(発明の効果) 本発明は以上のように、排気制御弁側の駆動部を覆う
カバーを排気制御弁に設け、このカバーと排気制御弁と
の合面間には、少くとも前方を指向する走行風取入口
と、後方へのびるワイヤを囲んで後方を指向する冷却風
流出口とを形成したものであるから、駆動部を路面障害
物から良好に保護できる。またカバーの内側に走行風が
良好に流れるので駆動部やワイヤの冷却性が良く熱によ
るトラブルが発生しにくくなる。As described above, the present invention provides the exhaust control valve with the cover that covers the drive unit on the exhaust control valve side, and directs at least the front between the surfaces of the cover and the exhaust control valve. Since the traveling wind inlet and the cooling air outlet that surrounds the wire extending rearward and is directed rearward are formed, the drive unit can be well protected from the road surface obstacle. In addition, since the traveling air flows favorably inside the cover, the drive unit and the wires are well cooled, and troubles due to heat are less likely to occur.
第1図は本発明の一実施例の分解斜視図、第2図は排気
制御弁の平断面図、第3図はその左側面図、第4図は同
じくカバーを取除いた状態を示す左側面図、第5図はこ
れを用いた自動二輪車の側面図である。 10……エンジン、20……排気制御弁、 36……駆動部としてのプーリ、 38……ボーデンワイヤ、46……カバー、 48……冷却風取入口、 50……冷却風排出口。1 is an exploded perspective view of an embodiment of the present invention, FIG. 2 is a plan sectional view of an exhaust control valve, FIG. 3 is a left side view thereof, and FIG. 4 is a left side showing a state in which a cover is also removed. A front view and FIG. 5 are side views of a motorcycle using the same. 10 …… Engine, 20 …… Exhaust control valve, 36 …… Pulley as drive unit, 38 …… Boden wire, 46 …… Cover, 48 …… Cooling air intake, 50 …… Cooling air exhaust.
Claims (1)
のエンジンの下方に配設され排気流路面積を変える排気
制御弁とを備える車輌において、 前記排気制御弁側の駆動部に接続されたワイヤを前記排
気制御弁から後方へ延出させる一方、前記駆動部を覆う
カバーを前記排気制御弁に固定し、前記排気制御弁とカ
バーとの合面間には少くとも前方を指向する冷却風取入
口と前記ワイヤを囲んで後方を指向する冷却風流出口と
を形成したことを特徴とする車輌の排気制御弁装置。1. A vehicle equipped with an engine mounted in the vicinity of the center of a vehicle body and an exhaust control valve which is disposed below the engine and changes an exhaust flow passage area, and which is connected to a drive unit on the exhaust control valve side. While extending the wire rearward from the exhaust control valve, a cover that covers the drive unit is fixed to the exhaust control valve, and a cooling wind that directs at least forward between the surfaces of the exhaust control valve and the cover. An exhaust control valve device for a vehicle, wherein an intake port and a cooling air outflow port that surrounds the wire and is directed rearward are formed.
Priority Applications (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4529287A JPH0826788B2 (en) | 1987-03-02 | 1987-03-02 | Exhaust control valve device for vehicle |
US07/126,839 US4896504A (en) | 1986-12-03 | 1987-11-30 | Exhaust gas control device for engines |
ES87117912T ES2056809T3 (en) | 1986-12-03 | 1987-12-03 | MOTOR VEHICLE, ESPECIALLY A BICYCLE. |
DE87117912T DE3787352T2 (en) | 1986-12-03 | 1987-12-03 | Motor vehicle. |
EP87117912A EP0270121B1 (en) | 1986-12-03 | 1987-12-03 | Motor vehicle |
CA000553582A CA1290698C (en) | 1986-12-03 | 1987-12-03 | Exhaust gas control device for engines |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4529287A JPH0826788B2 (en) | 1987-03-02 | 1987-03-02 | Exhaust control valve device for vehicle |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS63212729A JPS63212729A (en) | 1988-09-05 |
JPH0826788B2 true JPH0826788B2 (en) | 1996-03-21 |
Family
ID=12715237
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP4529287A Expired - Lifetime JPH0826788B2 (en) | 1986-12-03 | 1987-03-02 | Exhaust control valve device for vehicle |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0826788B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2012202389A (en) * | 2011-03-28 | 2012-10-22 | Honda Motor Co Ltd | Cooling structure of driving motor unit of straddle-type vehicle |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH03156122A (en) * | 1989-08-14 | 1991-07-04 | Yamaha Motor Co Ltd | Exhaust control valve device for parallel multiple cylinder two cycle engine |
-
1987
- 1987-03-02 JP JP4529287A patent/JPH0826788B2/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2012202389A (en) * | 2011-03-28 | 2012-10-22 | Honda Motor Co Ltd | Cooling structure of driving motor unit of straddle-type vehicle |
Also Published As
Publication number | Publication date |
---|---|
JPS63212729A (en) | 1988-09-05 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US5577570A (en) | Wind introducing system for motorcycle | |
JPS6371515A (en) | Exhaust control device of engine | |
JPH0826788B2 (en) | Exhaust control valve device for vehicle | |
JP2542198B2 (en) | Exhaust control device for saddle type motorcycle | |
JP2654967B2 (en) | Engine exhaust control valve device | |
JP2003161149A (en) | Exhaust device for engine of compact vehicle | |
JPS6366712B2 (en) | ||
JP2620098B2 (en) | Engine exhaust control valve device | |
JPH0825506B2 (en) | Exhaust control device for saddle type motorcycle | |
JP2875267B2 (en) | Exhaust control valve device for motorcycle | |
JP2843127B2 (en) | Automotive engine cooling system | |
JPH07111137B2 (en) | Vehicle exhaust control device | |
JP2617114B2 (en) | Exhaust system for automobile engine | |
JP2562617B2 (en) | Engine exhaust control device | |
JPH0825505B2 (en) | Exhaust control device for saddle type motorcycle | |
JPH0825504B2 (en) | Vehicle exhaust control device | |
JPH0126554Y2 (en) | ||
JPH089356B2 (en) | Exhaust control device for motorcycles | |
JPH07117096B2 (en) | Board Wire | |
JPH07111139B2 (en) | Exhaust control device for motorcycles | |
JP2554486B2 (en) | Exhaust control device for motorcycles | |
JPH076390B2 (en) | Exhaust control device for motorcycles | |
JPS63141892A (en) | Exhaust controller for scooter type car | |
JPH0126555Y2 (en) | ||
JPH0343116Y2 (en) |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
EXPY | Cancellation because of completion of term |