Liquid-cooled, vertical shaft type combustion engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01P-007/04
F01P-007/00
출원번호
US-0965620
(2004-10-14)
우선권정보
JP-2003-357764(2003-10-17)
발명자
/ 주소
Yoshimatsu,Atsuhiro
Nakamizo,Keiichi
Sasamura,Takao
Nakamura,Minoru
출원인 / 주소
Kawasaki Jukogyo Kabushiki Kaisha
인용정보
피인용 횟수 :
4인용 특허 :
5
초록▼
A liquid-cooled, vertical shaft type combustion engine is provided with a duct utilizing a stream of cooling air induced by a cooling fan to cool various parts of the combustion engine. The combustion engine includes an engine body, a crankshaft accommodated in the engine body so as to extend in a v
A liquid-cooled, vertical shaft type combustion engine is provided with a duct utilizing a stream of cooling air induced by a cooling fan to cool various parts of the combustion engine. The combustion engine includes an engine body, a crankshaft accommodated in the engine body so as to extend in a vertical direction, at least one engine cylinder head disposed at a front portion of the engine body, a radiator mounted above the engine body for circulating an engine coolant, a duct positioned below the radiator, and a cooling fan operatively accommodated within the duct. The duct has at least a front discharge opening and side discharge ports defined in a peripheral wall for discharging a stream of cooling air induced by the cooling fan, in a direction forwardly of the engine body and in a direction slantwise forwardly of the engine body.
대표청구항▼
What is claimed is: 1. A liquid-cooled, vertical shaft type combustion engine, which comprises: an engine body; a crankshaft accommodated in the engine body and having a longitudinal axis oriented substantially vertically; at least one engine cylinder head disposed at a front portion of the engine
What is claimed is: 1. A liquid-cooled, vertical shaft type combustion engine, which comprises: an engine body; a crankshaft accommodated in the engine body and having a longitudinal axis oriented substantially vertically; at least one engine cylinder head disposed at a front portion of the engine body; a radiator mounted above the engine body for cooling the engine body; a duct positioned below the radiator; and a cooling fan operatively accommodated within the duct; wherein the duct has a peripheral wall and top and bottom open ends and also has at least a front discharge opening and side discharge parts defined in a front portion and side portions, respectively, of the peripheral wall for discharging a stream of cooling air, that is induced by the cooling fan and flows into the radiator upstream of the cooling fan and then enters the duct to flow in a direction forwardly of the engine body and in a direction slantwise forwardly of the engine body, respectively. 2. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 1, further comprising a fuel supply device and wherein the front discharge opening confronts the fuel supply device. 3. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 1, further comprising an air cleaner unit disposed radially outwardly of the duct. 4. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 1, wherein the duct also has a rear discharge opening defined in a rear portion of the peripheral wall of the duct, and further comprising a bracket for supporting the radiator on the engine body, the bracket concurrently serving as a guide plate that is positioned outwardly of and in the vicinity of the rear discharge opening for guiding the stream of cooling air in a direction laterally of the duct. 5. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 1, wherein the duct includes a guide body mounted therein and encircling at least an upstream portion of an outer periphery of the cooling fan accommodated within the duct. 6. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 1, wherein the duct includes a louver provided in each of the side discharge ports of guiding the stream of cooling air to flow slantwise forwardly of the engine body. 7. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 6, wherein the duct including the louvers is formed of a synthetic resin, using a mold assembly having first and second die moving directions, which conform respectively to a vertical direction and a slantwise forward direction in which portions of the stream of cooling air emerge outwardly from the louvers. 8. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 1, wherein the engine is of a V-type configuration having engine cylinders disposed in a V-shape arrangement and wherein respective portions of the stream of cooling air emerging outwardly from the side discharge ports of the duct are directed towards the engine cylinders of the V-shape arrangement. 9. The liquid-cooled, vertical shaft type combustion engine as claimed in claim 1, further comprising a fuel pump disposed at a location below the side discharge ports in the peripheral wall of the duct. 10. In a liquid-cooled vertical shaft combustion engine having an engine body, a crankshaft extending substantially vertical, an engine cylinder head, a cooling fan mounted on top of the engine body and a liquid radiator mounted above the cooling fan for cooling the engine body, the improvement comprising; an integral one-piece duct positioned around the cooling fan and below the radiator, the radiator mounted on top of the duct member, wherein the duct has a peripheral wall and top and bottom open ends and also has at least a front discharge opening and side discharge ports defined in a front portion and side portions, respectively, of the peripheral wall for discharging a steam of cooling air, that is induced by the cooling fan and flows into the radiator upstream of the cooling fan and then enter the duct to flow in a direction forwardly of the engine body and in a direction slantwise forwardly of the engine body, respectively. 11. The liquid-cooled vertical shaft combustion engine of claim 10 wherein the duct includes a guide body mounted therein and encircling at least an upstream portion of an outer periphery of the cooling fan accommodated within the duct and a rear discharge opening in a rear portion of the peripheral wall. 12. The liquid-cooled vertical shaft type combustion engine in claim 11 wherein the duct includes a louver provided in each of the side discharge ports for guiding the stream of cooling air to flow slantwise forwardly of the engine body. 13. The liquid-cooled, vertical shaft type combustion engine of claim 12 wherein the duct including the louvers is formed of a synthetic resin. 14. The liquid-cooled, vertical shaft type combustion engine of claim 13 wherein the duct has a flat rectangular perimeter upper surface adjacent the liquid radiator and a partial cylindrical lower configuration with the louvers formed in the lower configuration. 15. A liquid-cooled, vertical shaft type combustion engine, which comprises: an engine body; a crankshaft accommodated in the engine body and having a longitudinal axis oriented substantially vertically; at least one engine cylinder head disposed at a from portion of the engine body; a radiator mounted above the engine body for cooling the engine body; a duct positioned below the radiator; and a cooling fan operatively accommodated within the duct; wherein the duct has peripheral wall and top and bottom open ends and also has at least a front discharge opening, side discharge ports and a rear discharge opening defined in a front portion, side portions and a rear portion, respectively, of the peripheral wall for discharging a stream of cooling air, induced by the cooling fan to flow in a direction forwardly of the engine body, in a direction slantwise forwardly of the engine body and in a direction rearward of the engine body, respectively. 16. A liquid-cooled, vertical shaft type combustion engine, which comprises: an engine body; a crankshaft accommodated in the engine body and having a longitudinal axis oriented substantially vertically; at least one engine cylinder head disposed at a front portion of the engine body; a radiator mounted above the engine body for cooling the engine body; a duct positioned below the radiator; and a cooling fan operatively accommodated within the duct; wherein the duct has a peripheral wall and top and bottom open ends and also has at least a front discharge opening and side discharge ports defined in a front portion and side portions, respectively, of the peripheral wall for discharging a stream of cooling air, inducted by the cooling fan, in a direction forwardly of the engine body and in a direction slantwise forwardly of the engine body, respectively, the duct also has a rear discharge opening defined in a rear portion of the peripheral wall of the duct, and further comprising a bracket for supporting the radiator on the engine body, the bracket concurrently serving as a guide plate that is positioned outwardly of and in the vicinity of the rear discharge opening for guiding the steam of cooling air in a direction laterally of the duct. 17. A liquid-cooled, vertical shaft type combustion engine, which comprises: an engine body; a crankshaft accommodated in the engine body and having a longitudinal axis oriented substantially vertically; at least one engine cylinder head disposed at a front portion of the engine body; a radiator mounted above to engine body for cooling the engine body; a duct positioned below the radiator; and a cooling fan operatively accommodated within the duct; wherein the duct has a peripheral wall and top and bottom open ends and also has at least a front discharge opening and side discharge ports defined in a front portion and side portions, respectively, of the peripheral wall for discharging a stream of cooling air, inducted by the cooling fan, in a direction forwardly of the engine body and in a direction slantwise forwardly of the engine body, respectively, the duct also includes a guide body mounted therein and encircling at least an upstream portion of an periphery of the cooling fan accommodated within the duct.
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이 특허에 인용된 특허 (5)
Tamba Shinichi (Kakogawa JPX) Fukui Noboru (Kakogawa JPX) Miguchi Akio (Kobe JPX), Cooling system for vertical shaft V-type engine.
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