KR19980078572A - EGR passage structure of automobile intake manifold - Google Patents
EGR passage structure of automobile intake manifold Download PDFInfo
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- KR19980078572A KR19980078572A KR1019970016138A KR19970016138A KR19980078572A KR 19980078572 A KR19980078572 A KR 19980078572A KR 1019970016138 A KR1019970016138 A KR 1019970016138A KR 19970016138 A KR19970016138 A KR 19970016138A KR 19980078572 A KR19980078572 A KR 19980078572A
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- South Korea
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- exhaust
- intake manifold
- pipe
- exhaust gas
- egr passage
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M35/00—Combustion-air cleaners, air intakes, intake silencers, or induction systems specially adapted for, or arranged on, internal-combustion engines
- F02M35/10—Air intakes; Induction systems
- F02M35/104—Intake manifolds
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Exhaust-Gas Circulating Devices (AREA)
Abstract
본 발명은 자동차 흡기매니폴드의 EGR통로 구조에 관한 것으로, 배기관(2)의 배기구(5) 및 유동관로(C)가 성형된 흡기매니폴드(1)의 플랜지면(3)으로 상기 배기재순환에 의해 흡기매니폴드(1)로 유입된 배기가스의 순환이 원활하도록 된 관통홈(4)이 상기 배기관(2)의 좌/우측 단으로 성형되므로, 상기 유통관로(C)로 유입된 배기가스가 동일한 량으로 분배되어 각 실린더로 유동되므로, 배기재순환의 제어 및 효율이 향상된 것이다.BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an EGR passage structure of an automobile intake manifold, and includes an exhaust port 5 of an exhaust pipe 2 and a flange face 3 of an intake manifold 1 in which a flow path C is formed. The through grooves 4 through which the exhaust gas flowing into the intake manifold 1 is smoothly formed are formed in the left and right ends of the exhaust pipe 2, so that the exhaust gas introduced into the distribution pipe C is Since it is distributed in the same amount and flows to each cylinder, the control and efficiency of exhaust recirculation are improved.
Description
본 발명은 자동차 흡기매니폴드의 EGR통로 구조에 관한 것으로, 특히 재순환된 배기가스가 흡기매니폴드의 플랜지부에 성형된 관통홈을 경유하여 흡기매니폴드의 각 배기관으로 유입되므로, 그 분배성이 향상된 자동차 흡기매니폴드의 EGR통로 구조에 관한 것이다.The present invention relates to an EGR passage structure of an automobile intake manifold, and in particular, since the recycled exhaust gas flows into each exhaust pipe of the intake manifold through the through groove formed in the flange portion of the intake manifold, its distribution is improved. The EGR passage structure of the vehicle intake manifold.
일반적으로 자동차에서 배기가스의 일부를 배기계에서 다시 엔진의 흡입계로 되돌려 혼합기에 가하는 EGR(이하 배기재순환 이라 표기)을 하므로 혼합기 중의 불활성가스의 비율을 증가하고 연소온도를 저하시키므로 낙스의 발생이 억제시키도록 되는 바, 배기매니폴드와 흡기매니폴드를 파이프로 연결시키고, 흡기매니폴드의 하우징 내부로 흡기매니폴드의 각 러너와 유통되고 상기 파이프와 연결되는 통로를 형성시키므로, 상기 배기매니폴드의 배기가스가 상기 파이프와 통로를 유동한 후 상기 배기매니폴드의 관로의 각 배기관로 유입되어진다.In general, EGR (hereinafter referred to as exhaust recirculation) is applied to the mixer by returning a part of the exhaust gas from the exhaust system back to the intake system of the engine, thereby increasing the ratio of inert gas in the mixer and lowering the combustion temperature. Since the exhaust manifold and the intake manifold are connected by pipes, the exhaust manifold exhaust gas is formed in the housing of the intake manifold, and forms a passage that is connected to each runner of the intake manifold and is connected to the pipe. After flowing through the pipe and the passage is introduced into each exhaust pipe of the pipeline of the exhaust manifold.
이에 따라, 상기 배기매니폴드와 흡기매니폴드가 연결되어 배기가스가 재순환되는 배기재순환은 펌프 손실의 저감 및 연소가스 온도저하에 의해 냉각액으로의 방열손실의 저감, 작동가스량 조성의 변화에 의한 비열비의 증대에 따른 사이클 효율 향상 등의 효과가 있다.Accordingly, the exhaust recirculation, in which the exhaust manifold and the intake manifold are connected and the exhaust gas is recycled, reduces the heat loss to the cooling liquid due to the reduction of the pump loss and the combustion gas temperature, and the specific heat ratio due to the change in the working gas amount composition. There is an effect of improving the cycle efficiency according to the increase.
그러나 상기와 같이 배기매니폴드와 흡기매니폴드를 연결하고, 상기 흡기매니폴드의 하우징 내부로 흡기매니폴드의 각 배기관과 연결되는 통로를 형성시키므로 상기 배기가스가 흡기매니폴드로 재순환 하도록 된 것은, 상기 흡기매니폴드의 내부에서 배기가스가 동일한 량으로 각 배기관로로 주입되므로 혼합기가 연소실로 주입될시 각 연소실에 동일한 부하가 작용되므로 그 동작효율을 향상시키도록 된 것이나, 상기 흡기매니폴드의 내부로 유입된 배기가스가 흡기매니폴드의 각 배기관로로 동일한 공급이 이루어지지 못하는 문제점이 있었다.However, the exhaust gas is recycled to the intake manifold because the exhaust manifold and the intake manifold are connected as described above, and a passage is connected to each exhaust pipe of the intake manifold into the housing of the intake manifold. Since the exhaust gas is injected into each exhaust pipe in the same amount in the intake manifold, the same load is applied to each combustion chamber when the mixer is injected into the combustion chamber, thereby improving its operation efficiency. There was a problem that the inlet exhaust gas was not supplied to each exhaust pipe of the intake manifold.
이에 본 발명은 상기와 같은 문제점을 해소하기 위해 안출된 것으로서, 상기 흡기매니폴드로 유입된 배기가스가 각 배기관로로 고르게 유입되도록 하므로, 각 연소실에 걸리는 부하가 동일하도록 된 자동차 흡기매니폴드의 EGR통로 구조를 제공함에 목적이 있다.Accordingly, the present invention has been devised to solve the above problems, so that the exhaust gas introduced into the intake manifold is evenly introduced into each exhaust pipe, so that the load applied to each combustion chamber is equal to the EGR of the vehicle intake manifold. The purpose is to provide a passage structure.
도1은 본 발명에 따라 EGR 통로가 구비되는 자동차의 흡기매니폴드를 도시한 평면도이다.1 is a plan view showing an intake manifold of an automobile equipped with an EGR passage according to the present invention.
1-흡기매니폴드, 2-배기관,1-intake manifold, 2-exhaust pipe,
3-플랜지면, 4-관통홈,3-flange, 4-through groove,
5-배기구, A-주입관로,5- exhaust, A-inlet
B-EGR통로, C-유동관로.B-EGR passage, C-flow passage.
상기와 같은 목적을 달성하기 위하여 본 발명은 혼합기가 유입되는 통로인 주입관로와, 흡기매니폴드의 하우징 내부로 형성된 통로로 혼합기를 각 실린더로 안내하는 EGR통로, 흡기매니폴드의 선단면으로 배기관의 배기구 및 유동관로가 성형된 플랜지면 및, 이 플랜지면에서 흡입기가 상호 유통하도록 배기관을 양측면에서 관통하며 형성된 홈인 관통홈으로 구성된다.In order to achieve the above object, the present invention provides an inlet pipe that is a passage through which the mixer is introduced, an EGR passage that guides the mixer to each cylinder into a passage formed inside the housing of the intake manifold, and an end surface of the intake manifold. It consists of a flange face formed with an exhaust port and a flow passage, and a through groove which is a groove formed through both sides of the exhaust pipe so that the inlet flows through the flange face.
따라서, 상기 주입관로로 유입된 배기가스는 주입EGR통로를 경유하여 플랜지면에 성형된 유동관로로 유입되고, 상기 유입관로에 성형된 관통홈을 경유하여 각 러너로 유입되어진다.Therefore, the exhaust gas introduced into the injection pipe flows into the flow pipe formed on the flange surface via the injection EGR path, and flows into each runner via the through groove formed in the inflow pipe.
이하 본 발명을 첨부된 예시도면을 참조로 상세히 설명한다.Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
도 1은 본 발명에 따라 EGR통로가 구비되는 자동차의 흡기매니폴드를 도시한 평면도로, 배기가스가 유입되는 주입관로(A)와, 배기가스가 유통되도록 흡기매니폴드(1)의 하우징 내부로 성형되는 EGR통로(B), 상기 흡기매니폴드(1)와 써지탱트의 접합면으로 상기 EGR통로(B)를 경유한 배기가스가 표면을 따라 유동하도록 유동관로(C)가 배기관(1a, b, c, d)의 배기구(5)의 외주면을 따라 성형되는 플랜지면(3) 및, 상기 유동관로(C)를 유동한 배기가스가 상기 배기관(2)의 배기구(5)로 유입되도록 유동관로(C)의 끝단과 배기구(5)의 좌/우측면을 연결하며 성형되는 관통홈(4)으로 구성된다.1 is a plan view showing an intake manifold of an automobile provided with an EGR passage in accordance with the present invention, into an injection pipe path (A) through which exhaust gas flows, and into the housing of the intake manifold (1) to allow exhaust gas to flow. The flow pipe C flows through the surface of the EGR passage B to be formed and the joint surface of the intake manifold 1 and the surge tank so that the exhaust gas passing through the EGR passage B flows along the surface. A flange tube 3 formed along the outer circumferential surface of the exhaust port 5 of b, c, d, and the flow pipe so that the exhaust gas flowing through the flow pipe C flows into the exhaust port 5 of the exhaust pipe 2. It consists of a through groove 4 formed by connecting the left and right side of the end of the furnace (C) and the exhaust port (5).
따라서, 상기 주입관로(A)로 유입된 배기가스는 EGR통로를 유통하여 플랜지면(3)의 배기구(5)의 외주면으로 성형되는 유동관로(C)로 유동되고, 배기관(2)의 배기구(5) 좌/우측으로 형성된 관통홈(4)을 경유하여 배기구(5)로 유입되어진다.Therefore, the exhaust gas flowing into the injection pipe passage A flows through the flow passage C formed through the EGR passage and formed into the outer circumferential surface of the exhaust port 5 of the flange face 3, and the exhaust port of the exhaust pipe 2. 5) It flows into the exhaust port 5 via the through groove 4 formed in the left / right side.
이에 따라, 배기재순환에 의해 흡기매니폴드(1)로 유입된 배기가스가 각 배기관(2)에 동일한 량으로 유입되므로 상기 실린더에 동일한 부하가 걸리도록 되므로 그 효율이 향상되어진다.Accordingly, since the exhaust gas introduced into the intake manifold 1 by the exhaust recirculation flows into each exhaust pipe 2 in the same amount, the same load is applied to the cylinder, and the efficiency thereof is improved.
이상에서 설명한 바와 같이 본 발명에 의하면 상기 배기관의 배기구 및 유동관로가 성형된 흡기매니폴드의 플랜지면으로 상기 배기재순환에 의해 흡기매니폴드로 유입된 배기가스의 순환이 원활하도록 된 관통홈이 상기 러너의 좌/우측 단으로 성형되므로, 상기 유통관로로 유입된 배기가스가 동일한 량으로 실린더부로 유동되어, 배기재순환의 제어 및 효율이 향상되는 효과가 있다.As described above, according to the present invention, the runner includes a through groove for smoothly circulating the exhaust gas introduced into the intake manifold by the exhaust recirculation to the flange surface of the intake manifold in which the exhaust port and the flow passage of the exhaust pipe are formed. Since it is formed in the left / right stage of the exhaust gas flowed into the cylinder portion in the same amount flows into the flow channel, there is an effect that the control and efficiency of the exhaust recirculation is improved.
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KR1019970016138A KR100204303B1 (en) | 1997-04-29 | 1997-04-29 | The egr structure of the intake manifold |
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KR1019970016138A KR100204303B1 (en) | 1997-04-29 | 1997-04-29 | The egr structure of the intake manifold |
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KR101393941B1 (en) * | 2008-07-25 | 2014-05-13 | 현대자동차주식회사 | Intake manifold structure |
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KR101393941B1 (en) * | 2008-07-25 | 2014-05-13 | 현대자동차주식회사 | Intake manifold structure |
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