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    • 1. 发明授权
    • Adaptive EGR cooling system
    • 自适应EGR冷却系统
    • US08146542B2
    • 2012-04-03
    • US12511441
    • 2009-07-29
    • Luis Carlos CattaniPeter PopadiucBashar Y. MelhemMartin R. Zielke
    • Luis Carlos CattaniPeter PopadiucBashar Y. MelhemMartin R. Zielke
    • F01P3/00
    • F02B29/0443F01P3/12F01P7/165F01P2060/02F02B29/0412F02B29/0425F02B37/013F02M26/08F02M26/24F02M26/28Y02T10/146
    • A first loop contains engine coolant passageways (28, 30) and a first radiator (34). A second loop contains a first EGR cooler (48). A third loop contains a second EGR cooler (50), a second radiator (36), a charge air cooler (26LP), a first valve (66), and a second valve (64). Valve (64) apportions coolant flow entering an inlet (64A) to parallel flow paths, one including second radiator (36) and the other being a bypass around radiator (36). The apportioned flows merge into confluent flow to both an inlet of charge air cooler (26LP) and a first inlet (66B) of valve (66). Valve (66) has an outlet (66C) communicated to an inlet of second EGR cooler (50). The first condition of valve (66) closes a second inlet (66A) to coolant flowing toward both the second inlet (66A) and inlet (64A) while opening inlet (66B) to outlet (66C). The second condition of valve (66) opens second inlet (66A) to coolant flowing toward second inlet (66A) and inlet (64A) of the valve (64) while closing first inlet (66B) of valve (66) to outlet (66C) of valve (66).
    • 第一回路包括发动机冷却剂通道(28,30)和第一散热器(34)。 第二回路包含第一EGR冷却器(48)。 第三回路包括第二EGR冷却器(50),第二散热器(36),增压空气冷却器(26LP),第一阀(66)和第二阀(64)。 阀(64)分配进入入口(64A)的冷却剂流到平行的流动路径,一个包括第二散热器(36),另一个是围绕散热器(36)的旁路。 分配的流动合并到汇合流体到增压空气冷却器(26LP)的入口和阀(66)的第一入口(66B)。 阀(66)具有与第二EGR冷却器(50)的入口连通的出口(66C)。 阀(66)的第一条件关闭冷却剂朝着第二入口(66A)和入口(64A)流动的第二入口(66A),同时打开入口(66B)到出口(66C)。 阀(66)的第二条件使冷却剂朝向阀(64)的第二入口(66A)和入口(64A)流动的第二入口(66A),同时关闭阀(66)的第一入口(66B)至出口(66C )阀。
    • 3. 发明申请
    • Adaptive EGR Cooling System
    • 自适应EGR冷却系统
    • US20110023796A1
    • 2011-02-03
    • US12511441
    • 2009-07-29
    • Luis Carlos CattaniPeter PopadiucBashar Y. MelhemMartin R. Zielke
    • Luis Carlos CattaniPeter PopadiucBashar Y. MelhemMartin R. Zielke
    • F01P7/14F02M25/07F01P3/20
    • F02B29/0443F01P3/12F01P7/165F01P2060/02F02B29/0412F02B29/0425F02B37/013F02M26/08F02M26/24F02M26/28Y02T10/146
    • A first loop contains engine coolant passageways (28, 30) and a first radiator (34). A second loop contains a first EGR cooler (48). A third loop contains a second EGR cooler (50), a second radiator (36), a charge air cooler (26LP), a first valve (66), and a second valve (64). Valve (64) apportions coolant flow entering an inlet (64A) to parallel flow paths, one including second radiator (36) and the other being a bypass around radiator (36). The apportioned flows merge into confluent flow to both an inlet of charge air cooler (26LP) and a first inlet (66B) of valve (66). Valve (66) has an outlet (66C) communicated to an inlet of second EGR cooler (50). The first condition of valve (66) closes a second inlet (66A) to coolant flowing toward both the second inlet (66A) and inlet (64A) while opening inlet (66B) to outlet (66C). The second condition of valve (66) opens second inlet (66A) to coolant flowing toward second inlet (66A) and inlet (64A) of the valve (64) while closing first inlet (66B) of valve (66) to outlet (66C) of valve (66).
    • 第一回路包括发动机冷却剂通道(28,30)和第一散热器(34)。 第二回路包含第一EGR冷却器(48)。 第三回路包括第二EGR冷却器(50),第二散热器(36),增压空气冷却器(26LP),第一阀(66)和第二阀(64)。 阀(64)分配进入入口(64A)的冷却剂流到平行的流动路径,一个包括第二散热器(36),另一个是围绕散热器(36)的旁路。 分配的流动合并到汇合流体到增压空气冷却器(26LP)的入口和阀(66)的第一入口(66B)。 阀(66)具有与第二EGR冷却器(50)的入口连通的出口(66C)。 阀(66)的第一条件关闭冷却剂朝着第二入口(66A)和入口(64A)流动的第二入口(66A),同时打开入口(66B)到出口(66C)。 阀(66)的第二条件使冷却剂朝向阀(64)的第二入口(66A)和入口(64A)流动的第二入口(66A),同时关闭阀(66)的第一入口(66B)至出口(66C )阀。
    • 4. 发明申请
    • FLEX Dual Stage EGR Cooling
    • FLEX双级EGR冷却
    • US20110083648A1
    • 2011-04-14
    • US12577522
    • 2009-10-12
    • Luis Carlos CattaniRobert L. RowellsBashar Y. MelhemMartin R. Zielke
    • Luis Carlos CattaniRobert L. RowellsBashar Y. MelhemMartin R. Zielke
    • F02M25/07F02B47/08
    • F01P7/165F02B29/0406F02M26/05F02M26/24F02M26/32Y02T10/146
    • A circuit for cooling exhaust gas being recirculated through an EGR system (36) of an engine (10) from an exhaust system (20) successively through first and second heat exchangers (38, 40) to an intake system (16) for entrainment with intake air. Each heat exchanger has a respective coolant inlet through which liquid coolant enters and a respective coolant outlet through which liquid coolant exits after having absorbed heat from recirculated exhaust gas. The circuit has a third heat exchanger (32) to which coolant coming from the outlet of one of the first and second heat exchangers rejects heat, and parallel branches (84, 86) through which coolant enters the inlet of the other of the first and second heat exchangers. One of the parallel branches has a fourth heat exchanger (34) to which coolant flowing through that branch rejects heat, and one or more devices (50, 50A) for controlling the quantity of coolant flowing through each branch.
    • 一种用于冷却废气的回路,其通过来自排气系统(20)的发动机(10)的EGR系统(36)循环通过第一和第二热交换器(38,40)连续地进入到进气系统(16),用于夹带 进气。 每个热交换器具有相应的冷却剂入口,液体冷却剂通过该入口和相应的冷却剂出口,液体冷却剂在从再循环废气吸收热量后通过该冷却剂出口离开。 电路具有第三热交换器(32),来自第一和第二热交换器中的一个的出口的冷却剂从其中排出热量,以及平行的分支(84,86),冷却剂通过该分支(84,86)进入第一和第二热交换器中的另一个的入口, 第二热交换器。 一个并联分支具有第四热交换器(34),流经该分支的冷却剂流向该热交换器排出热量,以及用于控制流过每个分支的冷却剂量的一个或多个装置(50,50A)。
    • 8. 发明授权
    • Expansion tank for vehicle cooling system
    • 车辆冷却系统扩容槽
    • US08397681B2
    • 2013-03-19
    • US12552808
    • 2009-09-02
    • Peter PopadiucMartin R. ZielkeLuis Carlos CattaniRobert L. RowellsGeorge L. Banta, IIIErnst Duerr
    • Peter PopadiucMartin R. ZielkeLuis Carlos CattaniRobert L. RowellsGeorge L. Banta, IIIErnst Duerr
    • F01P11/18F01P11/04
    • F01P11/029
    • An expansion tank (10) for a vehicle cooling system (18) of an engine using a liquid coolant (16) includes a tank body (12) defining a first volume (V1) containing coolant (16), wherein the coolant defines a variable coolant elevation level (CEL) within the tank body. The tank body (12) also defines an upper volume (20) containing air. A bladder (14) is disposed in the tank body (12) and defines a second volume (V2) containing air. The bladder (14) includes a flexible membrane (36) actuated by an actuator (46). When the engine is stopped or is below a predetermined temperature, the flexible membrane (36) is moveable to a first position (FP) which lowers the coolant elevation level (CEL), and when the engine is started or reaches a predetermined temperature, the flexible membrane (36) is moveable to a second position (SP) which raises the coolant elevation level. A communicating line (38) is in fluid communication between the upper volume (20) and the second volume (V2) to fluidly communicate air therebetween.
    • 一种用于使用液体冷却剂(16)的发动机的车辆冷却系统(18)的膨胀箱(10)包括限定含有冷却剂(16)的第一容积(V1)的罐体(12),其中冷却剂限定了可变 罐体内的冷却液升高高度(CEL)。 罐体(12)还限定容纳空气的上部容积(20)。 气囊(14)设置在罐体(12)中并且限定容纳空气的第二容积(V2)。 囊(14)包括由致动器(46)致动的柔性膜(36)。 当发动机停止或低于预定温度时,柔性膜(36)可移动到降低冷却剂高度水平(CEL)的第一位置(FP),并且当发动机起动或达到预定温度时, 柔性膜(36)可移动到提高冷却剂升高水平的第二位置(SP)。 连通管线(38)在上部容积(20)和第二容积(V2)之间流体连通,以在其间流体地连通空气。
    • 9. 发明申请
    • EXPANSION TANK FOR VEHICLE COOLING SYSTEM
    • 汽车冷却系统膨胀罐
    • US20110048345A1
    • 2011-03-03
    • US12552808
    • 2009-09-02
    • Peter PopadiucMartin R. ZielkeLuis Carlos CattaniRobert L. RowellsGeorge L. Banta, IIIErnst Duerr
    • Peter PopadiucMartin R. ZielkeLuis Carlos CattaniRobert L. RowellsGeorge L. Banta, IIIErnst Duerr
    • F01P7/02F01P11/20
    • F01P11/029
    • An expansion tank (10) for a vehicle cooling system (18) of an engine using a liquid coolant (16) includes a tank body (12) defining a first volume (V1) containing coolant (16), wherein the coolant defines a variable coolant elevation level (CEL) within the tank body. The tank body (12) also defines an upper volume (20) containing air. A bladder (14) is disposed in the tank body (12) and defines a second volume (V2) containing air. The bladder (14) includes a flexible membrane (36) actuated by an actuator (46). When the engine is stopped or is below a predetermined temperature, the flexible membrane (36) is moveable to a first position (FP) which lowers the coolant elevation level (CEL), and when the engine is started or reaches a predetermined temperature, the flexible membrane (36) is moveable to a second position (SP) which raises the coolant elevation level. A communicating line (38) is in fluid communication between the upper volume (20) and the second volume (V2) to fluidly communicate air therebetween.
    • 一种用于使用液体冷却剂(16)的发动机的车辆冷却系统(18)的膨胀箱(10)包括限定含有冷却剂(16)的第一容积(V1)的罐体(12),其中冷却剂限定了可变 罐体内的冷却液升高高度(CEL)。 罐体(12)还限定容纳空气的上部容积(20)。 气囊(14)设置在罐体(12)中并且限定容纳空气的第二容积(V2)。 囊(14)包括由致动器(46)致动的柔性膜(36)。 当发动机停止或低于预定温度时,柔性膜(36)可移动到降低冷却剂高度水平(CEL)的第一位置(FP),并且当发动机起动或达到预定温度时, 柔性膜(36)可移动到提高冷却剂升高水平的第二位置(SP)。 连通管线(38)在上部容积(20)和第二容积(V2)之间流体连通,以在其间流体地连通空气。