KR19980034347A - Cooling water flow promotion structure - Google Patents

Cooling water flow promotion structure Download PDF

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Publication number
KR19980034347A
KR19980034347A KR1019960052373A KR19960052373A KR19980034347A KR 19980034347 A KR19980034347 A KR 19980034347A KR 1019960052373 A KR1019960052373 A KR 1019960052373A KR 19960052373 A KR19960052373 A KR 19960052373A KR 19980034347 A KR19980034347 A KR 19980034347A
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KR
South Korea
Prior art keywords
water jacket
piston
cooling water
shaft
impeller
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KR1019960052373A
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Korean (ko)
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KR0182103B1 (en
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김규완
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박병재
현대자동차 주식회사
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Priority to KR1019960052373A priority Critical patent/KR0182103B1/en
Publication of KR19980034347A publication Critical patent/KR19980034347A/en
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Publication of KR0182103B1 publication Critical patent/KR0182103B1/en

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01PCOOLING OF MACHINES OR ENGINES IN GENERAL; COOLING OF INTERNAL-COMBUSTION ENGINES
    • F01P3/00Liquid cooling
    • F01P3/06Arrangements for cooling pistons
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01PCOOLING OF MACHINES OR ENGINES IN GENERAL; COOLING OF INTERNAL-COMBUSTION ENGINES
    • F01P5/00Pumping cooling-air or liquid coolants
    • F01P5/10Pumping liquid coolant; Arrangements of coolant pumps
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01PCOOLING OF MACHINES OR ENGINES IN GENERAL; COOLING OF INTERNAL-COMBUSTION ENGINES
    • F01P3/00Liquid cooling
    • F01P3/02Arrangements for cooling cylinders or cylinder heads
    • F01P2003/021Cooling cylinders

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Cylinder Crankcases Of Internal Combustion Engines (AREA)

Abstract

본 발명은 피스톤 스커어트부에 수직으로 기어를 형성하고, 상기 기어와 맞물리도록 끝단에 기어를 형성시킨 샤프트가 실린더 블럭에 회동 가능하게 축지지되면서 워터 재킷으로 관통되며, 상기 워터 재킷측 샤프트 끝단부에는 임펠러가 축고정되어 상기 피스톤의 승강작동에 의해서 임펠러가 회전되도록 하므로서 피스톤의 승강운동에 의해서 샤프트가 회전되도록 하여 워터 재킷내의 냉각수 유동성이 증대되도록 하므로서 기관의 냉각 효율을 향상시키게 될 뿐만 아니라 각 마찰 소재들간의 마모를 대폭 저감시켜 엔진 내구력이 증강될 수 있도록 하는 냉각수 유동 촉진구조에 대한 것이다.The present invention is to form a gear perpendicular to the piston skirt portion, the shaft formed in the end to be engaged with the gear is passed through the water jacket while being pivotally supported on the cylinder block rotatably, the water jacket side shaft end portion The impeller is axially fixed to allow the impeller to be rotated by the lifting and lowering operation of the piston, thereby allowing the shaft to be rotated by the lifting and lowering motion of the piston, thereby increasing the cooling water flowability in the water jacket, thereby improving the cooling efficiency of the engine as well as angular friction. The present invention relates to a cooling water flow promoting structure that greatly reduces wear between materials to increase engine durability.

Description

냉각수 유동 촉진구조Cooling water flow promotion structure

본 발명은 피스톤의 승강운동에 의해서 샤프트가 회전되도록 하여 워터 재킷내의 냉각수를 보다 원활하게 유동될 수 있도록 하는 냉각수 유동 촉진구조에 대한 것이다.The present invention relates to a cooling water flow promoting structure that allows the shaft to be rotated by the lifting and lowering motion of the piston to allow the cooling water in the water jacket to flow more smoothly.

일반적으로 운전 중에 엔진이 과열되지 않도록 냉각시켜 엔진을 항상 적정의 온도로서 유지되도록 하는 것을 냉각장치라고 한다.In general, the cooling device is to cool the engine so as not to overheat during operation so that the engine is always maintained at an appropriate temperature.

이는 연소 기간중 연소실내의 온도가 대단히 높아지면서 이열의 상당량이 실린더 벽면, 실린더 헤드, 피스톤, 밸브 및 기타의 부품에 전달되면서 과열되어 이상 연소, 열변형등을 유발하게 되고, 또 오일의 연소등으로 윤활이 원활하게 수행되지 못하면서 심한 경우에는 엔진을 손상시키게 되는 문제가 발생되며, 반대로 기관이 지나치게 냉각되면 연소에서 발생한 열량 가운데 냉각으로 손실되는 열량이 크기 때문에 기관의 열효율이 낮아지고, 연료 소비량이 증가되는 문제가 있으므로 기관의 온도를 알맞게 유지시키기 위해 냉각장치를 구비하게 된다.This is because during the combustion period, the temperature in the combustion chamber becomes very high, and a considerable amount of heat is transferred to the cylinder wall, the cylinder head, the piston, the valve, and other parts, causing overheating, causing abnormal combustion, thermal deformation, and the like. If lubrication is not performed smoothly, the engine will be damaged in severe cases. On the contrary, if the engine is overcooled, the heat efficiency of the engine will be lowered due to the large amount of heat lost from the combustion. Since there is an increasing problem, a cooling device is provided to maintain the engine temperature properly.

현재 자동차 엔진의 냉각방식으로 가장 많이 사용되고 있는것은 수냉식 냉각장치인바 이같은 수냉식 냉각장치는 항상 엔진내부의 워터 재킷을 냉각수가 순환되도록 하므로서 기관이 냉각될 수 있도록 하는 것이다.At present, the most commonly used cooling method of the automobile engine is a water-cooled chiller such that the engine is cooled by always allowing the water jacket inside the engine to circulate the coolant.

이같이 기관을 순환시켜 열을 흡수한 냉각수는 라디에이터를 통하면서 열교환되도록 한 후 다시 기관으로 재순환시키게 되는데 이때 냉각수의 계속적인 순환을 위하여 워터 펌프가 구비되며, 기관과 라디에이터 사이에는 수온 조절기가 설치되도록 하여 기관을 순환한 냉각수 온도에 따라서 상기 냉각수의 순환 경로가 바뀌어지면서 온도를 조절되도록 하고 있다.The cooling water absorbed heat by circulating the engine is heat exchanged through the radiator and then recycled back to the engine. At this time, a water pump is provided for continuous circulation of the coolant, and a water temperature controller is installed between the engine and the radiator. The circulation path of the cooling water is changed in accordance with the cooling water temperature circulating in the engine so as to adjust the temperature.

한편 기관을 냉각시 특히 실린더 블럭을 통과하게 되는 냉각수는 도 2에서와 같은 워터 재킷(12)을 통해서 흐르게 되는데 이는 피스톤(20) 및 피스톤 링(22), 실린더 블럭(10)의 과열과 열변형이 방지되도록 하기 위한 것이다.On the other hand, when the engine is cooled, the coolant flowing through the cylinder block flows through the water jacket 12 as shown in FIG. 2, which causes overheating and thermal deformation of the piston 20, the piston ring 22, and the cylinder block 10. This is to be prevented.

따라서 워터 재킷(12)을 통해 흐르게 되는 냉각수가 비록 워터 펌프에 의해서 강제적으로 유동된다고는 하지만 각 실린더를 거쳐가게 되는 냉각수의 유동 속도가 대단히 느르기 때문에 실린더 블럭(10)으로부터 충분한 열흡수가 이루어지지 못하게 되며, 도리어 과열을 촉진시키게 되는 문제점이 있다.Therefore, although the coolant flowing through the water jacket 12 is forcedly flowed by the water pump, sufficient heat absorption from the cylinder block 10 is not achieved because the flow rate of the coolant flowing through each cylinder is very slow. There is a problem that, rather than to promote overheating.

이에 본 발명은 상기한 문제점을 감안하여 이를 개선시키기 위하여 안출한 것으로서, 본 발명이 목적으로 하는 바는 피스톤의 승강작동력을 이용하여 워터 재킷측으로 축설시킨 임펠러를 회동시켜 워터 재킷을 흐르는 냉각수의 유동력을 증대시켜 냉각 효율을 향상시키면서 보다 엔진의 내구력이 향상될 수 있도록 하는데 있다.Accordingly, the present invention has been made in view of the above-described problems, and an object of the present invention is to rotate the impeller built up to the water jacket side by using the lifting force of the piston to flow the flow of cooling water through the water jacket. In order to improve the cooling efficiency by increasing the engine durability can be improved more.

상기한 목적을 달성하기 위한 본 발명의 특징은Features of the present invention for achieving the above object

피스톤 스커어트부에 수직으로 기어를 형성하고, 상기 기어와 맞물리도록 끝단에 기어를 형성시킨 샤프트가 실린더 블럭에 회동 가능하게 축지지되면서 워터 재킷으로 관통되며, 상기 워터 재킷측 샤프트 끝단부에는 임펠러가 축고정되어 상기 피스톤의 승강작동에 의해서 임펠러가 회전되도록 하는 구성이다.A gear is formed perpendicularly to the piston skirt portion, and a shaft having a gear formed at the end to engage the gear is axially rotatably supported by the cylinder block and penetrated by the water jacket. An impeller is provided at the shaft end of the water jacket side. A shaft is fixed so that the impeller is rotated by the lifting operation of the piston.

도 1은 본 발명에 따른 일실시예 구조를 도시한 실린더의 측단면도1 is a side cross-sectional view of a cylinder showing an embodiment structure according to the present invention;

도 2는 종래의 실린더 블럭의 단면 구조도2 is a cross-sectional structural view of a conventional cylinder block

※ 도면 중 주요부분에 대한 부호의 설명※ Explanation of code for main part of drawing

10 : 실린더 블록 12 : 워터 재킷10 cylinder block 12 water jacket

21 : 스커어트부 30 : 샤프트21: skirt portion 30: shaft

31 : 기어 32 : 임펠러31 gear 32 impeller

이를 첨부한 실시예 도면을 참조하여 보다 상세하게 설명하면, 도 1에서 보는바와 같이 본 발명은 실린더 블럭(10)을 관통토록 샤프트(30)를 축설하고, 상기 샤프트(30)는 일단이 피스톤(20)의 스커어트부(21)에 기어결합하고, 타단에는 임펠러(32)가 워터 재킷(12)내에서 축고정되도록 하여 피스톤(20) 작동에 임펠러(32)가 연동되도록 하는 구성이다.Referring to this in more detail with reference to the accompanying drawings, the present invention as shown in Figure 1, the shaft 30 to penetrate through the cylinder block 10, the shaft 30 is one end of the piston ( 20 is geared to the skirt portion 21, the other end is configured to allow the impeller 32 to be axially fixed in the water jacket 12 so that the impeller 32 is linked to the operation of the piston 20.

이와같은 구성시 워터 재킷(12)은 통상 실린더 보어(11)를 감싸는 형상으로 이루어지므로 상기와 같은 구조는 복수개로서 형성되도록 하는 것이 바람직하다.In such a configuration, since the water jacket 12 is usually formed in a shape surrounding the cylinder bore 11, it is preferable that such a structure is formed as a plurality.

상기한 구조에 따른 작동을 살펴보면 피스톤(20)이 승강작동시 스커어트부(21)에 형성된 기어(23)와 샤프트(30) 일단부에 축설한 기어(31)가 맞물리면서 상기 샤프트(30)를 회동시키게 된다.Looking at the operation according to the above-described structure, the gear (23) formed in one end of the shaft 30 and the gear (23) formed in the skirt portion 21 during engagement operation of the piston 20 is engaged with the shaft (30) Rotated.

이렇게 상기 샤프트(30)가 화전을 하게 되면 워터 재킷(12)내에서 축고정된 임펠러(32)도 동시에 회전을 하게 되므로 상기 임펠러(32)에 의해서 워터 재킷(12)을 따라 흐르게 되는 냉각수의 유동력은 보다 촉진된다.Thus, when the shaft 30 fires, the impeller 32 fixed in the water jacket 12 also rotates at the same time, so that the coolant flows along the water jacket 12 by the impeller 32. Power is more accelerated.

따라서 냉각수가 워터 재킷(12)에 머무는 시간을 단축시키게 되므로 항상 새로운 냉각수를 유도시키면서 실린더 블럭(10)으로부터 열흡수력이 좋아지게 된다.Therefore, since the cooling water shortens the time for staying in the water jacket 12, the heat absorbing power from the cylinder block 10 is improved while always inducing new cooling water.

이로서 피스톤(20)이나 피스톤 링(22) 및 실린더 블럭(10)간의 마찰에 의한 열변형을 최대한 방지시키게 되어 기관을 항상 안정된 작동 조건으로 유지시키게 된다.This prevents thermal deformation due to friction between the piston 20 or the piston ring 22 and the cylinder block 10 as much as possible to maintain the engine at a stable operating condition at all times.

그러므로 본 발명에 따라 냉각수의 유동성이 증대되도록 하여 기관의 냉각 효율을 향상시키게 될 뿐만 아니라 각 마찰 소재들간의 마모를 대폭 저감시켜 엔진 내구력을 증강시키게 되는 매우 유용한 효과를 제공하게 되는 것이다.Therefore, the fluidity of the cooling water is increased according to the present invention to not only improve the cooling efficiency of the engine, but also to provide a very useful effect of greatly reducing the wear between the friction materials to enhance the engine durability.

Claims (1)

피스톤 스커어트부에 수직으로 기어를 형성하고, 상기 기어와 맞물리도록 끝단에 기어를 형성시킨 샤프트가 실린더 블럭에 회동 가능하게 축지지되면서 워터 재킷으로 관통되며, 상기 워터 재킷측 샤프트 끝단부에는 임펠러가 축고정되어 상기 피스톤의 승강작동에 의해서 임펠러가 회전되도록 하는 구성을 특징으로 하는 냉각수 유동 촉진구조.A gear is formed perpendicularly to the piston skirt portion, and a shaft having a gear formed at the end to engage the gear is axially rotatably supported by the cylinder block and penetrated by the water jacket. An impeller is provided at the shaft end of the water jacket side. A shaft is fixed to the cooling water flow promoting structure characterized in that the impeller is rotated by the lifting operation of the piston.
KR1019960052373A 1996-11-06 1996-11-06 Cooling water flow promoting structure KR0182103B1 (en)

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KR1019960052373A KR0182103B1 (en) 1996-11-06 1996-11-06 Cooling water flow promoting structure

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KR0182103B1 KR0182103B1 (en) 1999-03-20

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