公开(公告)号：US20090025668A1

公开(公告)日：2009-01-29

申请号：US11665064

申请日：2005-10-18

申请人： Masanobu Matsusaka ,  Naoto Yumisashi ,  Katsuhiko Eguchi ,  Shigemitsu Suzuki ,  Yoji Kanada ,  Takeshi Hashizume

发明人： Masanobu Matsusaka ,  Naoto Yumisashi ,  Katsuhiko Eguchi ,  Shigemitsu Suzuki ,  Yoji Kanada ,  Takeshi Hashizume

IPC分类号： F01L1/344

CPC分类号： F01L1/3442 ,  F01L2001/34426 ,  F01L2001/34476 ,  F01L2001/34483

摘要： A variable valve timing control apparatus includes: a relative rotational phase adjusting mechanism capable of adjusting a relative rotational phase between a drive-side rotational member and a driven-side rotational member between the most advanced angle phase and the most retarded angle phase; and a lock mechanism capable of locking the relative rotational phase at an intermediate phase between the most advanced angle phase and the most retarded angle phase; a first pump operated by a driving force of an engine; and an electrically driven second pump operated as an electrically driven pump. Hydraulic fluid is supplied from at least one of the first pump and the second pump, and the second pump is capable of operating even if the first pump is inoperative when the engine is not running.

摘要翻译： 一种可变气门正时控制装置，包括：相对转动相位调节机构，其能够调节在最高角度相位与最大延迟角度相位之间的驱动侧旋转构件和从动侧旋转构件之间的相对旋转相位; 以及锁定机构，其能够将相对旋转相位锁定在最前进角度相位与最大延迟角度相位之间的中间相位处; 由发动机的驱动力操作的第一泵; 以及作为电动泵操作的电驱动的第二泵。 液压流体由第一泵和第二泵中的至少一个供给，第二泵即使在发动机不运转时第一泵不工作也能够运转。

公开(公告)号：US20050016481A1

公开(公告)日：2005-01-27

申请号：US10786539

申请日：2004-02-26

申请人： Osamu Komazawa ,  Naoto Yumisashi

发明人： Osamu Komazawa ,  Naoto Yumisashi

IPC分类号： F01L1/34 ,  F01L1/344

CPC分类号： F01L1/022 ,  F01L1/024 ,  F01L1/3442 ,  F01L2001/34463 ,  F01L2001/34466 ,  F01L2001/34473 ,  F01L2001/34476

摘要： A variable valve timing control device which includes a driving side rotational member, a driven side rotational member, a rotational phase holding mechanism for holding a relative rotational phase between the driving side rotational member and the driven side rotational member at a locked phase, a rotational phase restriction mechanism for allowing and restricting the relative rotation, a groove formed at one of the rotational members, a restriction body provided at the rotational phase restriction mechanism for restricting the relative rotation, a plurality of said rotational phase restriction mechanisms for restricting the relative rotation in a predetermined direction at different relative rotational phases, a step portion provided at the groove being engaged with the restriction body for restricting the relative rotation in the predetermined direction, and the rotational phase restriction mechanism including the step portion for restricting the relative rotation in the predetermined direction at the plural relative rotational phases.

公开(公告)号：US08972154B2

公开(公告)日：2015-03-03

申请号：US13505096

申请日：2010-10-13

申请人： Naoto Yumisashi ,  Masazumi Yoshida ,  Shigeki Kinomura

发明人： Naoto Yumisashi ,  Masazumi Yoshida ,  Shigeki Kinomura

IPC分类号： G06F19/00 ,  G06G7/70 ,  F01P11/02 ,  F02N11/08 ,  F02D29/02 ,  B60W10/02 ,  B60W10/06 ,  B60W10/08 ,  B60W30/192 ,  F01P7/16 ,  F02D17/04 ,  F02G5/02 ,  B60W20/00

CPC分类号： F02D17/00 ,  B60L2240/445 ,  B60W10/02 ,  B60W10/06 ,  B60W10/08 ,  B60W20/00 ,  B60W30/192 ,  F01P3/20 ,  F01P7/16 ,  F01P7/165 ,  F01P2050/24 ,  F01P2060/08 ,  F02D17/04 ,  F02D29/02 ,  F02G5/02 ,  F02N11/0829 ,  F02N11/084 ,  F02N2200/023 ,  F02N2200/0811 ,  Y02T10/166 ,  Y02T10/48 ,  Y02T10/6286

摘要： A cooling system for an engine in the present invention includes a first coolant route for circulating coolant between a water jacket of an engine main body and a heater core, a second coolant route for circulating the coolant between a waste heat recovery unit and the heater core, a first water-temperature sensor provided on the first coolant route, and a second water-temperature sensor provided on the second coolant route. An engine control unit makes an engine stop determination based on the coolant temperatures detected by the first water-temperature sensor and the second water-temperature sensor and, in making the engine stop determination, selectively uses the coolant temperatures detected by the first water-temperature sensor and the second water-temperature sensor in dependence on whether a heater unit including the heater core is in an operation state or in an out-of-operation state.

摘要翻译： 本发明的发动机冷却系统包括用于在发动机主体的水套和加热器芯之间循环冷却剂的第一冷却剂路径，用于在废热回收单元和加热器芯之间循环冷却剂的第二冷却剂路径 设置在第一冷却剂路径上的第一水温传感器和设置在第二冷却剂路径上的第二水温传感器。 发动机控制单元基于由第一水温传感器和第二水温传感器检测到的冷却剂温度进行发动机停止判定，并且在进行发动机停止判定时，选择性地使用由第一水温传感器和第二水温传感器检测到的冷却水温度 传感器和第二水温传感器，这取决于包括加热器芯的加热器单元是处于运行状态还是在运行状态。

公开(公告)号：US20120215429A1

公开(公告)日：2012-08-23

申请号：US13505096

申请日：2010-10-13

申请人： Naoto Yumisashi ,  Masazumi Yoshida ,  Shigeki Kinomura

发明人： Naoto Yumisashi ,  Masazumi Yoshida ,  Shigeki Kinomura

IPC分类号： F02D17/00 ,  F01P7/16 ,  F01P3/20

CPC分类号： F02D17/00 ,  B60L2240/445 ,  B60W10/02 ,  B60W10/06 ,  B60W10/08 ,  B60W20/00 ,  B60W30/192 ,  F01P3/20 ,  F01P7/16 ,  F01P7/165 ,  F01P2050/24 ,  F01P2060/08 ,  F02D17/04 ,  F02D29/02 ,  F02G5/02 ,  F02N11/0829 ,  F02N11/084 ,  F02N2200/023 ,  F02N2200/0811 ,  Y02T10/166 ,  Y02T10/48 ,  Y02T10/6286

摘要： A cooling system for an engine in the present invention includes a first coolant route for circulating coolant between a water jacket of an engine main body and a heater core, a second coolant route for circulating the coolant between a waste heat recovery unit and the heater core, a first water-temperature sensor provided on the first coolant route, and a second water-temperature sensor provided on the second coolant route. An engine control unit makes an engine stop determination based on the coolant temperatures detected by the first water-temperature sensor and the second water-temperature sensor and, in making the engine stop determination, selectively uses the coolant temperatures detected by the first water-temperature sensor and the second water-temperature sensor in dependence on whether a heater unit including the heater core is in an operation state or in an out-of-operation state.

摘要翻译： 本发明的发动机冷却系统包括用于在发动机主体的水套和加热器芯之间循环冷却剂的第一冷却剂路径，用于在废热回收单元和加热器芯之间循环冷却剂的第二冷却剂路径 设置在第一冷却剂路径上的第一水温传感器和设置在第二冷却剂路径上的第二水温传感器。 发动机控制单元基于由第一水温传感器和第二水温传感器检测到的冷却剂温度进行发动机停止判定，并且在进行发动机停止判定时，选择性地使用由第一水温传感器和第二水温传感器检测到的冷却水温度 传感器和第二水温传感器，这取决于包括加热器芯的加热器单元是处于运行状态还是在运行状态。

公开(公告)号：US06976460B2

公开(公告)日：2005-12-20

申请号：US10786539

申请日：2004-02-26

申请人： Osamu Komazawa ,  Naoto Yumisashi

发明人： Osamu Komazawa ,  Naoto Yumisashi

IPC分类号： F01L1/34 ,  F01L1/344

CPC分类号： F01L1/022 ,  F01L1/024 ,  F01L1/3442 ,  F01L2001/34463 ,  F01L2001/34466 ,  F01L2001/34473 ,  F01L2001/34476

摘要： A variable valve timing control device which includes a driving side rotational member, a driven side rotational member, a rotational phase holding mechanism for holding a relative rotational phase between the driving side rotational member and the driven side rotational member at a locked phase, a rotational phase restriction mechanism for allowing and restricting the relative rotation, a groove formed at one of the rotational members, a restriction body provided at the rotational phase restriction mechanism for restricting the relative rotation, a plurality of said rotational phase restriction mechanisms for restricting the relative rotation in a predetermined direction at different relative rotational phases, a step portion provided at the groove being engaged with the restriction body for restricting the relative rotation in the predetermined direction, and the rotational phase restriction mechanism including the step portion for restricting the relative rotation in the predetermined direction at the plural relative rotational phases.

摘要翻译： 一种可变气门正时控制装置，包括驱动侧旋转构件，从动侧旋转构件，用于在锁定阶段保持驱动侧旋转构件和从动侧旋转构件之间的相对旋转相位的旋转相位保持机构，旋转 用于允许和限制相对旋转的相位限制机构，形成在所述旋转构件中的一个上的凹槽，设置在旋转相位限制机构处用于限制相对旋转的限制体，用于限制相对旋转的多个所述旋转相位限制机构 在不同的相对旋转相位的预定方向上，设置在所述凹槽处的阶梯部分与所述限制体接合，以限制所述预定方向上的相对旋转，并且所述旋转相位限制机构包括所述台阶部分，用于限制所述相对旋转中的相对旋转 预先确定 在多个相对旋转相位的方向。