公开(公告)号：US09262545B2

公开(公告)日：2016-02-16

申请号：US12018159

申请日：2008-01-22

申请人： Andrew Covell ,  Jeremy Patterson ,  James Daley ,  Scott Nadzan ,  Michael A. Fudge ,  Boyan Kostadinov ,  Christopher Sedore

发明人： Andrew Covell ,  Jeremy Patterson ,  James Daley ,  Scott Nadzan ,  Michael A. Fudge ,  Boyan Kostadinov ,  Christopher Sedore

IPC分类号： G06F15/173 ,  G06F3/048 ,  G06F17/30 ,  H04L29/06 ,  H04L29/08

CPC分类号： G06F17/3089 ,  H04L63/102 ,  H04L67/02 ,  H04L67/10

摘要： The present invention relates to a system which enables cooperative rich media content management, sharing, and publishing across a distributed set of Web sites, Web servers, and media servers based on control information in an online database. Media files are housed on any number of heterogeneous media repositories. The system of the present invention is used for managing, sharing, and publishing rich media content including video, images, animations, audio, etc. Authorized viewers access media files through dynamically generated content and media links embedded on Web sites. Content administrators publish media entries to any number of such distributed Web sites, and can set viewer permissions for individual video entries when published on specific Web sites. Content administrators can also dynamically establish media sharing and access relationships.

摘要翻译： 本发明涉及一种能够基于在线数据库中的控制信息，在分布式的一组网站，Web服务器和媒体服务器上进行协同的富媒体内容管理，共享和发布的系统。 媒体文件位于任何数量的异构媒体存储库中。 本发明的系统用于管理，共享和发布包括视频，图像，动画，音频等的富媒体内容。授权的观看者通过嵌入在网站上的动态生成的内容和媒体链接来访问媒体文件。 内容管理员将媒体条目发布到任何数量的这种分布式网站，并且可以在特定网站上发布时为各个视频条目设置查看器权限。 内容管理员还可以动态建立媒体共享和访问关系。

公开(公告)号：US20080189617A1

公开(公告)日：2008-08-07

申请号：US12018159

申请日：2008-01-22

申请人： Andrew Covell ,  Jeremy Patterson ,  James Daley ,  Scott Nadzan ,  Michael A. Fudge ,  Boyan Kostadinov ,  Christopher Sedore

发明人： Andrew Covell ,  Jeremy Patterson ,  James Daley ,  Scott Nadzan ,  Michael A. Fudge ,  Boyan Kostadinov ,  Christopher Sedore

IPC分类号： G06F15/173 ,  G06F3/048 ,  G06F17/30

CPC分类号： G06F17/3089 ,  H04L63/102 ,  H04L67/02 ,  H04L67/10

摘要： The present invention relates to a system which enables cooperative rich media content management, sharing, and publishing across a distributed set of Web sites, Web servers, and media servers based on control information in an online database. Media files are housed on any number of heterogeneous media repositories. The system of the present invention is used for managing, sharing, and publishing rich media content including video, images, animations, audio, etc. Authorized viewers access media files through dynamically generated content and media links embedded on Web sites. Content administrators publish media entries to any number of such distributed Web sites, and can set viewer permissions for individual video entries when published on specific Web sites. Content administrators can also dynamically establish media sharing and access relationships.

摘要翻译： 本发明涉及一种能够基于在线数据库中的控制信息，在分布式的一组网站，Web服务器和媒体服务器上进行协同的富媒体内容管理，共享和发布的系统。 媒体文件位于任何数量的异构媒体存储库中。 本发明的系统用于管理，共享和发布包括视频，图像，动画，音频等的富媒体内容。授权的观看者通过嵌入在网站上的动态生成的内容和媒体链接来访问媒体文件。 内容管理员将媒体条目发布到任何数量的这种分布式网站，并且可以在特定网站上发布时为各个视频条目设置查看器权限。 内容管理员还可以动态建立媒体共享和访问关系。

公开(公告)号：US20170342946A1

公开(公告)日：2017-11-30

申请号：US15164479

申请日：2016-05-25

申请人： Roger C. Sager ,  William B. Blomquist ,  James Daley ,  Aikaterini Tsahalou ,  Ronald A. Yannone, JR. ,  Luis Del Rio ,  Mark L. Lott ,  Joseph Dekar

发明人： Roger C. Sager ,  William B. Blomquist ,  James Daley ,  Aikaterini Tsahalou ,  Ronald A. Yannone, JR. ,  Luis Del Rio ,  Mark L. Lott ,  Joseph Dekar

IPC分类号： F02M25/08 ,  F02D41/22 ,  F02D41/04 ,  F02D41/00

CPC分类号： F02M25/0827 ,  F02D41/003 ,  F02D41/004 ,  F02D41/042 ,  F02D41/22 ,  F02D2041/225 ,  F02M25/0836 ,  F02M25/0854

摘要： A diagnostic method and system includes a control valve configured to control an amount of air drawn into an evaporative emissions (EVAP) system through an air filter and a vapor canister, and a pressure sensor configured to measure pressure in the EVAP system. The system also includes a controller configured to detect an engine idle-to-off transition and, in response to detecting the engine idle-to-off transition: receive a first pressure from the pressure sensor, fully open a purge valve connected between the vapor canister and an intake port of an engine, fully close the control valve, monitor one or more second pressures received from the pressure sensor, and detect a malfunction of the EVAP system based on the first pressure, at least one of the one or more second pressures, and a diagnostic threshold.

公开(公告)号：US09970391B2

公开(公告)日：2018-05-15

申请号：US15164479

申请日：2016-05-25

申请人： Roger C Sager ,  William B Blomquist ,  James Daley ,  Aikaterini Tsahalou ,  Ronald A Yannone, Jr. ,  Luis Del Rio ,  Mark L Lott ,  Joseph Dekar

发明人： Roger C Sager ,  William B Blomquist ,  James Daley ,  Aikaterini Tsahalou ,  Ronald A Yannone, Jr. ,  Luis Del Rio ,  Mark L Lott ,  Joseph Dekar

IPC分类号： F02M1/00 ,  F02M25/08 ,  F02D41/00 ,  F02D41/22 ,  F02D41/04

CPC分类号： F02M25/0827 ,  F02D41/003 ,  F02D41/004 ,  F02D41/042 ,  F02D41/22 ,  F02D2041/225 ,  F02M25/0836 ,  F02M25/0854

摘要： A diagnostic method and system includes a control valve configured to control an amount of air drawn into an evaporative emissions (EVAP) system through an air filter and a vapor canister, and a pressure sensor configured to measure pressure in the EVAP system. The system also includes a controller configured to detect an engine idle-to-off transition and, in response to detecting the engine idle-to-off transition: receive a first pressure from the pressure sensor, fully open a purge valve connected between the vapor canister and an intake port of an engine, fully close the control valve, monitor one or more second pressures received from the pressure sensor, and detect a malfunction of the EVAP system based on the first pressure, at least one of the one or more second pressures, and a diagnostic threshold.

公开(公告)号：US20180142631A1

公开(公告)日：2018-05-24

申请号：US15359683

申请日：2016-11-23

申请人： Roger C. Sager ,  Ryan Sturgeon ,  James Daley ,  Joseph Dekar ,  Jospeh B. Unsworth ,  Luis Del Rio ,  Ronald A Yannone, JR. ,  Jeffrey P Wuttke

发明人： Roger C. Sager ,  Ryan Sturgeon ,  James Daley ,  Joseph Dekar ,  Jospeh B. Unsworth ,  Luis Del Rio ,  Ronald A Yannone, JR. ,  Jeffrey P Wuttke

IPC分类号： F02D41/00 ,  F02M25/08 ,  F02M35/10 ,  F01N3/08

CPC分类号： F02D41/004 ,  F01N3/0814 ,  F01N3/0842 ,  F01N3/0871 ,  F01N3/0885 ,  F01N3/2033 ,  F01N9/00 ,  F01N2900/08 ,  F01N2900/1614 ,  F02D41/0007 ,  F02D41/0035 ,  F02D41/0275 ,  F02M25/0836 ,  F02M25/0854 ,  F02M25/089 ,  F02M35/10222 ,  Y02T10/144

摘要： A vapor canister of an evaporative emissions (EVAP) system is configured to store fuel vapor evaporated from a liquid fuel housed in a fuel tank of a vehicle. A boost line is connected between a high-pressure side of a boost system of an engine and the vapor canister, a boost pressure control valve is disposed in-line along the boost line and configured to control an amount of boost pressure provided to the vapor canister, and a set of purge lines are connected between the vapor canister and at least one of the engine, an induction system of the engine, and an exhaust treatment system of the engine. A controller is configured to control the boost pressure control valve to control the boost pressure provided to the vapor canister to control an amount of fuel vapor forced from the vapor canister through at least one of the set of purge lines.

公开(公告)号：US11261770B1

公开(公告)日：2022-03-01

申请号：US17181290

申请日：2021-02-22

申请人： Matthew M Delleree ,  James Daley ,  Roger C Sager ,  Joseph Dekar ,  Nithin Baradwaj

发明人： Matthew M Delleree ,  James Daley ,  Roger C Sager ,  Joseph Dekar ,  Nithin Baradwaj

IPC分类号： F01N3/20 ,  F01N3/36 ,  F02B33/40 ,  F02M25/08 ,  F01N3/30

摘要： A vehicle engine system includes an internal combustion engine, an air induction system configured to supply intake air to the internal combustion engine, and an evaporative emissions control (EVAP) system is configured to selectively supply purge fuel vapor to the EHC for subsequent combustion and rapid heating to a predetermined catalyst light-off temperature. The system additionally includes a booster configured to charge the intake air, and an engine bypass conduit fluidly coupled between the booster and the exhaust aftertreatment system. When the internal combustion engine is off, the booster selectively supplies a flow of intake air through the engine bypass conduit to the exhaust aftertreatment system. The flow of intake air draws purge fuel vapor from the EVAP system into the exhaust aftertreatment system.

公开(公告)号：US20050069762A1

公开(公告)日：2005-03-31

申请号：US10833881

申请日：2004-04-28

申请人： James Daley ,  David Gondek ,  Michael Keagle ,  Dale Trester ,  Mark Inkmann ,  Glenn Andersen

发明人： James Daley ,  David Gondek ,  Michael Keagle ,  Dale Trester ,  Mark Inkmann ,  Glenn Andersen

IPC分类号： H01M2/02 ,  H01M2/04 ,  H01M2/08 ,  H01M2/10 ,  H01M2/16 ,  H01M6/10 ,  H01M10/06

CPC分类号： H01M2/0242 ,  H01M2/043 ,  H01M2/1005 ,  H01M2/1613 ,  H01M6/10 ,  H01M10/06 ,  H01M2300/0011

摘要： A container for a battery includes a top portion having a generally rectangular shape and that is configured for coupling to a cover for the battery. The container also includes a plurality of cell containers extending from the top portion for housing wound cells elements. The cell containers have a generally cylindrical shape and are arranged in an offset configuration. The container also includes a structure extending from the top portion in an area of the top portion not supported by a cell container due to the offset cell container configuration. The structure provides enhanced structural rigidity for the top portion in the area of the top portion not supported by a cell container.

摘要翻译： 一种用于电池的容器包括具有大致矩形形状并且被配置为联接到电池盖的顶部。 容器还包括从顶部延伸以容纳缠绕的细胞元件的多个细胞容器。 电池容器具有大致圆柱形形状并且以偏移构造布置。 容器还包括由于偏移电池容器构造而从顶部的不被电池容器支撑的区域中的顶部延伸的结构。 该结构为不由电池容​​器支撑的顶部区域中的顶部提供了增强的结构刚性。

公开(公告)号：US10161323B2

公开(公告)日：2018-12-25

申请号：US15359683

申请日：2016-11-23

申请人： Roger C Sager ,  Ryan Sturgeon ,  James Daley ,  Joseph Dekar ,  Jospeh B Unsworth ,  Luis Del Rio ,  Ronald A Yannone, Jr. ,  Jeffrey P Wuttke

发明人： Roger C Sager ,  Ryan Sturgeon ,  James Daley ,  Joseph Dekar ,  Jospeh B Unsworth ,  Luis Del Rio ,  Ronald A Yannone, Jr. ,  Jeffrey P Wuttke

IPC分类号： F01N3/00 ,  F02D41/00 ,  F02M25/08 ,  F02M35/10 ,  F01N3/08

摘要： A vapor canister of an evaporative emissions (EVAP) system is configured to store fuel vapor evaporated from a liquid fuel housed in a fuel tank of a vehicle. A boost line is connected between a high-pressure side of a boost system of an engine and the vapor canister, a boost pressure control valve is disposed in-line along the boost line and configured to control an amount of boost pressure provided to the vapor canister, and a set of purge lines are connected between the vapor canister and at least one of the engine, an induction system of the engine, and an exhaust treatment system of the engine. A controller is configured to control the boost pressure control valve to control the boost pressure provided to the vapor canister to control an amount of fuel vapor forced from the vapor canister through at least one of the set of purge lines.

公开(公告)号：US10161322B2

公开(公告)日：2018-12-25

申请号：US15359679

申请日：2016-11-23

申请人： Roger C Sager ,  James Daley ,  Joseph Dekar ,  Brian L Terwedo ,  Derek R Robson ,  Daniel E Hornback

发明人： Roger C Sager ,  James Daley ,  Joseph Dekar ,  Brian L Terwedo ,  Derek R Robson ,  Daniel E Hornback

IPC分类号： G01N3/00 ,  F02D41/00 ,  F02M25/08 ,  F01N5/02 ,  B01D53/04 ,  F01N3/10

摘要： An evaporative emissions (EVAP) system for a vehicle includes a waste heat control valve configured to direct an exhaust gas from an exhaust treatment system, the waste heat control valve being positioned at a point downstream from a catalyst of the exhaust treatment system, a vapor canister configured to store a fuel vapor evaporated from a liquid fuel housed in a fuel tank of the vehicle, and a heat exchanger connected to (i) the fuel tank, (ii) the waste heat control valve, and (iii) the vapor canister, the heat exchanger being configured to (a) utilize the exhaust waste heat to evaporate the fuel vapor from the liquid fuel and (b) provide the evaporated fuel vapor to the vapor canister. A method of operating the EVAP system includes controlling the waste heat control valve and a fuel pump to provide the vapor canister with a desired amount of fuel vapor.

公开(公告)号：US20180142634A1

公开(公告)日：2018-05-24

申请号：US15359679

申请日：2016-11-23

申请人： Roger C. Sager ,  James Daley ,  Joseph Dekar ,  Brian L. Terwedo ,  Derek R. Robson ,  Daniel E. Hornback

发明人： Roger C. Sager ,  James Daley ,  Joseph Dekar ,  Brian L. Terwedo ,  Derek R. Robson ,  Daniel E. Hornback

IPC分类号： F02D41/00 ,  F02M25/08 ,  F01N5/02 ,  B01D53/04

CPC分类号： F02D41/0032 ,  B01D53/0407 ,  B01D2253/102 ,  B01D2257/7022 ,  B01D2259/4516 ,  F01N3/0205 ,  F01N3/0234 ,  F01N3/101 ,  F01N5/02 ,  F01N2240/02 ,  F02D41/0045 ,  F02D41/1446 ,  F02D41/1459 ,  F02D41/3082 ,  F02D2200/0802 ,  F02G5/02 ,  F02M25/0854 ,  F02M25/089 ,  Y02T10/16 ,  Y02T10/166

摘要： An evaporative emissions (EVAP) system for a vehicle includes a waste heat control valve configured to direct an exhaust gas from an exhaust treatment system, the waste heat control valve being positioned at a point downstream from a catalyst of the exhaust treatment system, a vapor canister configured to store a fuel vapor evaporated from a liquid fuel housed in a fuel tank of the vehicle, and a heat exchanger connected to (i) the fuel tank, (ii) the waste heat control valve, and (iii) the vapor canister, the heat exchanger being configured to (a) utilize the exhaust waste heat to evaporate the fuel vapor from the liquid fuel and (b) provide the evaporated fuel vapor to the vapor canister. A method of operating the EVAP system includes controlling the waste heat control valve and a fuel pump to provide the vapor canister with a desired amount of fuel vapor.