公开(公告)号：US20170030305A1

公开(公告)日：2017-02-02

申请号：US15105870

申请日：2014-10-30

Applicant: TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor： Satoshi SUGIYAMA

IPC: F02M26/04 ,  F02D41/00 ,  F02D21/08 ,  F02D23/00 ,  F02B37/12 ,  F02B47/08

CPC classification number: F02M26/04 ,  F01N5/04 ,  F02B37/12 ,  F02B47/08 ,  F02D9/04 ,  F02D21/08 ,  F02D23/00 ,  F02D41/0007 ,  F02D41/0047 ,  F02D41/0065 ,  F02D41/0072 ,  F02M26/06 ,  F02M26/07 ,  F02M26/10 ,  F02M26/19 ,  F02M26/21 ,  F02M26/23 ,  Y02T10/144 ,  Y02T10/47

Abstract: In an EGR system that introduces an EGR gas to a vicinity of an inlet of a compressor in an intake passage, prevention of erosion of an impeller by condensed water generated in an EGR passage, and restraint of pressure loss of intake air are made compatible. An introduction port for an EGR gas formed in a wall surface of the intake passage in a vicinity of the inlet of the compressor and an exhaust passage are connected by the EGR passage. The EGR passage is provided with an EGR valve, and an exhaust throttle valve is provided downstream of a position where the EGR passage is connected in the exhaust passage. By a control device that controls the EGR valve and the exhaust throttle valve, respective opening degrees of the EGR valve and the exhaust throttle valve are controlled in accordance with a flow rate of fresh air that flows to the compressor, and a velocity of the EGR gas that flows out into the intake passage from the introduction port for the EGR gas is changed so that the EGR gas flows toward a center portion of the impeller of the compressor.

Abstract translation: 在将EGR气体引入到进气通路中的压缩机入口附近的EGR系统中，防止在EGR通路中产生的冷凝水对叶轮的侵蚀和进气的压力损失的抑制被兼容。 用于在压缩机的入口附近形成在进气通道的壁表面中的EGR气体的引入口和排气通道通过EGR通道连接。 EGR通道设置有EGR阀，并且排气节流阀设置在EGR通道连接在排气通道中的位置的下游。 通过控制EGR阀和排气节流阀的控制装置，根据流到压缩机的新鲜空气的流量和EGR的速度来控制EGR阀和排气节流阀的各自的开度 改变从EGR气体导入口流入进气通路的气体，使得EGR气体朝向压缩机的叶轮的中心部分流动。

公开(公告)号：US20160061102A1

公开(公告)日：2016-03-03

申请号：US14840261

申请日：2015-08-31

Applicant: TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor： Satoshi SUGIYAMA

IPC: F02B37/04 ,  F02D9/02 ,  F02B37/16 ,  F02B39/10

CPC classification number: F02B37/04 ,  F02B33/40 ,  F02B37/16 ,  F02B39/10 ,  F02B2037/122 ,  F02B2037/125 ,  F02D23/00 ,  F02D41/0007 ,  F02D41/12 ,  F02D2009/023 ,  F02D2200/602 ,  Y02T10/144

Abstract: An internal combustion engine system includes: a turbosupercharger having a turbo-compressor arranged in a first intake passage; a throttle valve provided on a downstream side relative to the turbo-compressor; a second intake passage that bypasses the turbo-compressor; and an electric supercharger in which a compressor wheel disposed in the second intake passage is driven by an electric motor. When a request to decelerate the internal combustion engine is issued during driving of the compressor wheel by the electric motor, driving of the compressor wheel by the electric motor is stopped before the throttle valve starts a valve closing operation, and the intake bypass valve opens at or after a time at which a valve closing operation of the throttle valve starts.

Abstract translation: 内燃机系统包括：涡轮增压器，具有布置在第一进气通道中的涡轮压缩机; 设置在相对于涡轮压缩机的下游侧的节气门; 绕过涡轮压缩机的第二进气通道; 以及电动增压器，其中设置在第二进气通道中的压缩机叶轮由电动机驱动。 当通过电动机驱动压缩机叶轮期间发出减速内燃机的请求时，在节流阀开始关闭动作之前，由电动机驱动压缩机叶轮停止，并且进气旁通阀打开 或者在节气门的关阀操作开始的时间之后。

公开(公告)号：US20180128192A1

公开(公告)日：2018-05-10

申请号：US15723370

申请日：2017-10-03

Applicant: TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor： Satoshi SUGIYAMA

IPC: F02D41/00 ,  F02M26/02 ,  F02M26/64 ,  F02D9/02 ,  F02D13/02

Abstract: An internal combustion engine includes a throttle valve, an EGR passage, an EGR valve, a valve mechanism that adjusts opening and closing characteristics of an intake valve or an exhaust valve of the internal combustion engine, and a controller that controls the throttle valve, the EGR valve and the valve mechanism, based on request torque that is requested of the internal combustion engine. The controller is configured to execute evacuation traveling control that operates the throttle valve to fully open, calculates a target intake air flow amount for achieving the request torque based on an effective opening area of the EGR valve which is stuck, and operates the valve mechanism in accordance with the target intake air flow amount, in at least one time period while the request torque is reducing when the EGR valve is stuck in an open state.

公开(公告)号：US20170254276A1

公开(公告)日：2017-09-07

申请号：US15445012

申请日：2017-02-28

Applicant: TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor： Satoshi SUGIYAMA

IPC: F02D41/00 ,  F02B37/22 ,  F02M26/04 ,  F02D41/30 ,  F02B39/06 ,  F02M35/10 ,  F02B37/18 ,  F02D37/02

CPC classification number: F02D41/0007 ,  F02B37/183 ,  F02B37/225 ,  F02B39/06 ,  F02D37/02 ,  F02D41/0055 ,  F02D41/047 ,  F02D41/3005 ,  F02D2200/021 ,  F02D2200/0402 ,  F02D2200/0414 ,  F02M26/04 ,  F02M35/10157 ,  F02M35/10222 ,  F02M35/10255 ,  F02M35/1038 ,  Y02T10/144 ,  Y02T10/47

Abstract: In cases where an EGR device is provided in which an EGR gas is recirculated to an upstream side of a compressor, the generation of condensed water is suppressed in an intake passage at the downstream side of the compressor. In the case where the temperature of a wall surface of the intake passage estimated or detected by a temperature detector is equal to or less than a predetermined temperature, a rotational speed of a turbine is made higher than in the case where the estimated or detected temperature of the wall surface of the intake passage is higher than the predetermined temperature, and torque of an internal combustion engine is adjusted such that an amount of change in an output of the internal combustion engine at the time of the rotational speed of the turbine being thus made higher falls within a predetermined range.

公开(公告)号：US20160025048A1

公开(公告)日：2016-01-28

申请号：US14782427

申请日：2013-04-12

Applicant: Jumpei SHIOTA ,  Matsuyoshi SUGIYAMA ,  Keiji YOEDA ,  Naruto YAMANE ,  Satoshi SUGIYAMA ,  Isao MATSUMOTO ,  Masakazu TABATA ,  Toyota Jidosha Kabushiki Kaisha

Inventor： Jumpei SHIOTA ,  Matsuyoshi SUGIYAMA ,  Keiji YOEDA ,  Naruto YAMANE ,  Satoshi SUGIYAMA ,  Isao MATSUMOTO ,  Masakazu TABATA

IPC: F02M35/10 ,  F01M13/00 ,  F02B39/16 ,  F01P11/04 ,  F02M25/07 ,  F02B39/00 ,  F02B37/00 ,  F02B29/04

CPC classification number: F02M35/10222 ,  F01M13/00 ,  F01M13/021 ,  F01M2013/0038 ,  F01M2013/027 ,  F01P11/04 ,  F02B29/0443 ,  F02B37/00 ,  F02B37/005 ,  F02B39/005 ,  F02B39/16 ,  F02B2039/164 ,  F02M25/06 ,  F02M26/06 ,  F02M35/10157 ,  Y02T10/121 ,  Y02T10/144 ,  Y02T10/146

Abstract: The object of the invention is to provide a cooling device for accomplishing both of required engine and compressor cooling degrees. The invention relates to a cooling device for an engine provided with a blowby gas recirculation device (50) and a turbocharger (60), the blowby gas recirculation device recirculating a blowby gas to an intake passage upstream of a compressor of the turbocharger. The cooling device comprises a first cooling device (70) for cooling a body (20) of the engine and a second cooling device (80) for cooling an intake air, separately. The second cooling device cools the compressor (61).

Abstract translation: 本发明的目的是提供一种用于实现所需的发动机和压缩机冷却度的冷却装置。 本发明涉及一种用于具有窜气再循环装置（50）和涡轮增压器（60）的发动机的冷却装置，所述窜气再循环装置将窜气再循环到涡轮增压器的压缩机上游的进气通道。 冷却装置包括用于冷却发动机的主体（20）的第一冷却装置（70）和用于分别冷却进气的第二冷却装置（80）。 第二冷却装置冷却压缩机（61）。