公开(公告)号：US10138781B2

公开(公告)日：2018-11-27

申请号：US15255057

申请日：2016-09-01

Applicant: Ford Global Technologies, LLC

Inventor： Ray Host ,  Robert Andrew Wade ,  Anthony Morelli

IPC: F02B37/12 ,  F01N3/20

Abstract: Methods and systems are provided for expediting light-off of a catalyst during engine cold-start conditions by inhibiting rotation of the turbocharger shaft. In one example, a method may include inhibiting rotation of the turbocharger shaft during engine cold-start conditions until the catalyst is operating at a desired efficiency. The rotation of the shaft may be inhibited via either a passive or an active shaft locking mechanism.

公开(公告)号：US20150089923A1

公开(公告)日：2015-04-02

申请号：US14044384

申请日：2013-10-02

Applicant: Ford Global Technologies, LLC

Inventor： Cornelius Langston Henderson, IV ,  Ray Host ,  Michael Collareno ,  George I. Tapos ,  Christopher Oberski

IPC: F01N13/10 ,  F01N3/10

CPC classification number: F01N13/10 ,  F01N3/101 ,  F01N3/28 ,  F01N13/008 ,  F01N2240/20 ,  Y02T10/22

Abstract: An exhaust system for an engine is provided herein. The exhaust system includes an emission control device and an exhaust manifold having a plurality of runners merging at a confluence section positioned upstream of the emission control device. The exhaust system further includes a mixer plate positioned in the confluence section, the mixer plate including a central opening and a plurality of louvered vents positioned axially around the central opening, the louvered vents having angled openings facing a common rotational direction.

Abstract translation: 本发明提供一种用于发动机的排气系统。 排气系统包括排放控制装置和具有多个流道的排气歧管，排气歧管在位于排放控制装置上游的汇合部分处汇合。 所述排气系统还包括位于所述汇合部分中的混合器板，所述混合器板包括中心开口和沿所述中心开口轴向定位的多个百叶窗通风口，所述百叶窗通风口具有面向公共旋转方向的成角度的开口。

公开(公告)号：US11499471B2

公开(公告)日：2022-11-15

申请号：US17156886

申请日：2021-01-25

Applicant: Ford Global Technologies, LLC

Inventor： Xiaogang Zhang ,  Peter Moilanen ,  Ray Host ,  Steven Wooldridge ,  William Charles Ruona ,  Jianwen Yi

IPC: F02B37/18 ,  F02B37/02

Abstract: Systems and methods for reducing heat loss to a turbocharger during cold engine starting are described. In one example, a turbocharger bypass pipe and a turbocharger turbine pipe are oriented at forty five degrees relative to a longitudinal axis of a catalyst so that a turbocharger turbine may be completely bypassed, thereby increasing the amount of energy that may be transferred to the catalyst.

公开(公告)号：US09541044B2

公开(公告)日：2017-01-10

申请号：US14606090

申请日：2015-01-27

Applicant: FORD GLOBAL TECHNOLOGIES, LLC

Inventor： Ray Host ,  Milind B. Kulkarni ,  Calvin C. Tran ,  Joshua D. Simon

IPC: F02M35/10 ,  F02M35/104

CPC classification number: F02M35/1036 ,  F02M26/17 ,  F02M35/10052 ,  F02M35/10222 ,  F02M35/10321 ,  F02M35/10347 ,  F02M35/104

Abstract: An intake manifold for an internal combustion engine comprises upper and lower shell members with outer flanges. The shell members define a manifold cavity having a plenum and a plurality of runners. The upper shell includes an upper post formed as an indentation into the plenum with a tunnel wall and a terminus wall. The lower shell includes a lower post formed as an indentation into the plenum with a tunnel wall and a terminus wall. The terminus walls are attached to provide a brace across the plenum. One of the posts includes an orifice penetrating the tunnel wall. A sealed coupler extends from the one post and is adapted to receive a secondary gas for mixing within the plenum. Thus, secondary gases can be introduced without additional structures that could impede gas flow and could increase manufacturing cost.

Abstract translation: 用于内燃机的进气歧管包括具有外凸缘的上壳体和下壳体构件。 壳体构件限定具有增压室和多个流道的歧管腔。 上壳体包括形成为具有隧道壁和终端壁的通气室中的凹陷的上柱塞。 下壳体包括形成为具有隧道壁和终端壁的压力通道的下部柱体。 连接终端墙以在整个通风室处提供支撑。 其中一个柱包括穿透隧道壁的孔。 密封的联接器从一个支柱延伸并且适于接收用于在增压室内混合的二次气体。 因此，可以引入二次气体而没有可能阻碍气体流动并且可能增加制造成本的附加结构。

公开(公告)号：US09163548B2

公开(公告)日：2015-10-20

申请号：US14044384

申请日：2013-10-02

Applicant: Ford Global Technologies, LLC

Inventor： Cornelius Langston Henderson, IV ,  Ray Host ,  Michael Collareno ,  George I. Tapos ,  Christopher Oberski

IPC: F01N3/00 ,  F01N13/10 ,  F01N3/28 ,  F01N3/10 ,  F01N13/00

CPC classification number: F01N13/10 ,  F01N3/101 ,  F01N3/28 ,  F01N13/008 ,  F01N2240/20 ,  Y02T10/22

Abstract: An exhaust system for an engine is provided herein. The exhaust system includes an emission control device and an exhaust manifold having a plurality of runners merging at a confluence section positioned upstream of the emission control device. The exhaust system further includes a mixer plate positioned in the confluence section, the mixer plate including a central opening and a plurality of louvered vents positioned axially around the central opening, the louvered vents having angled openings facing a common rotational direction.

Abstract translation: 本发明提供一种用于发动机的排气系统。 排气系统包括排放控制装置和具有多个流道的排气歧管，排气歧管在位于排放控制装置上游的汇合部分处汇合。 所述排气系统还包括位于所述汇合部分中的混合器板，所述混合器板包括中心开口和沿所述中心开口轴向定位的多个百叶窗通风口，所述百叶窗通风口具有面向公共旋转方向的成角度的开口。

公开(公告)号：US20220235694A1

公开(公告)日：2022-07-28

申请号：US17156886

申请日：2021-01-25

Applicant: Ford Global Technologies, LLC

Inventor： Xiaogang Zhang ,  Peter Moilanen ,  Ray Host ,  Steven Wooldridge ,  William Charles Ruona ,  Jianwen Yi

IPC: F02B37/18 ,  F02B37/02

Abstract: Systems and methods for reducing heat loss to a turbocharger during cold engine starting are described. In one example, a turbocharger bypass pipe and a turbocharger turbine pipe are oriented at forty five degrees relative to a longitudinal axis of a catalyst so that a turbocharger turbine may be completely bypassed, thereby increasing the amount of energy that may be transferred to the catalyst.

公开(公告)号：US20180058288A1

公开(公告)日：2018-03-01

申请号：US15255057

申请日：2016-09-01

Applicant: Ford Global Technologies, LLC

Inventor： Ray Host ,  Robert Andrew Wade ,  Anthony Morelli

IPC: F01N3/20 ,  F02B37/12

CPC classification number: F01N3/2006 ,  F02B37/12 ,  F05B2220/40

Abstract: Methods and systems are provided for expediting light-off of a catalyst during engine cold-start conditions by inhibiting rotation of the turbocharger shaft. In one example, a method may include inhibiting rotation of the turbocharger shaft during engine cold-start conditions until the catalyst is operating at a desired efficiency. The rotation of the shaft may be inhibited via either a passive or an active shaft locking mechanism.