INTAKE PASSAGE STRUCTURE OF ON-VEHICLE ENGINE

INTAKE PASSAGE STRUCTURE OF ON-VEHICLE ENGINE

To enable each cylinder to suction water occurring due to melting of ice pillars evenly when a ceiling surface of a surge tank is inclined relative to an engine output shaft.SOLUTION: An engine E has multiple cylinders and is formed by arranging an engine output shaft Ac along a vehicle fore and aft...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: YOSHIKAWA TAKASHI, HAMAZUME YOSHIHIRO
Format: Patent
Sprache:eng ; jpn
Schlagworte:
ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS INVEHICLES
ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OFTRANSMISSIONS IN VEHICLES
ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GASEXHAUST OR FUEL SUPPLY OF PROPULSION UNITS, IN VEHICLES
AUXILIARY DRIVES FOR VEHICLES
BLASTING
COMBUSTION ENGINES
HEATING
HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
INSTRUMENTATION OR DASHBOARDS FOR VEHICLES
LIGHTING
MECHANICAL ENGINEERING
PERFORMING OPERATIONS
SUPPLYING COMBUSTION ENGINES IN GENERAL, WITH COMBUSTIBLEMIXTURES OR CONSTITUENTS THEREOF
TRANSPORTING
VEHICLES IN GENERAL
WEAPONS
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Beschreibung
Zusammenfassung:To enable each cylinder to suction water occurring due to melting of ice pillars evenly when a ceiling surface of a surge tank is inclined relative to an engine output shaft.SOLUTION: An engine E has multiple cylinders and is formed by arranging an engine output shaft Ac along a vehicle fore and aft direction. In an intake passage structure of the engine E, the engine E is mounted on a motor vehicle 100 with the engine output shaft Ac inclined downward to the vehicle rear. An intake system 2 to which the intake passage structure is applied includes a surge tank 8 attached to an inlet part 11a of an intake port 11 formed at a cylinder head 1b of the engine E. A ceiling surface 81a of an inner peripheral surface of the surge tank 8 inclines downward along the engine output shaft Ac. The ceiling surface 81a is formed with first protruding parts 84 extending along a suction/exhaust direction of the engine E and protruding to a bottom surface 82a of the inner peripheral surface of the surge tank 8.SELECTED DRAWING: Figure 4 【課題】機関出力軸に対してサージタンクの天井面を傾斜させた場合に、氷柱の溶融によって生じた水を、各気筒に偏りなく吸い込ませる。【解決手段】複数の気筒を有しかつ機関出力軸Acを車両前後方向に沿って配置させてなるエンジンEの吸気通路構造において、エンジンEは、車両後方に向かって機関出力軸Acを下降傾斜させた状態で自動車100に搭載される。吸気通路構造が適用された吸気装置2は、エンジンEのシリンダヘッド1bに形成された吸気ポート11の入口部11aに取り付けられるサージタンク8を備え、サージタンク8の内周面のうちの天井面81aは、機関出力軸Acに沿って下降傾斜し、天井面81aには、エンジンEの吸排気方向に沿って延びかつサージタンク8の内周面のうちの底面82aに向かって突出する第1突出部84が形成される。【選択図】図4