公开(公告)号：US09217594B2

公开(公告)日：2015-12-22

申请号：US14348697

申请日：2011-10-05

申请人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

发明人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

IPC分类号： F25D17/06 ,  F25B49/02 ,  F25B31/00 ,  F25B25/00 ,  F25B6/04 ,  B60H1/00

CPC分类号： F25B49/02 ,  B60H1/00885 ,  B60H2001/00949 ,  F25B6/04 ,  F25B25/00 ,  F25B31/006 ,  F25B31/008 ,  F25B2400/23

摘要： A method of controlling a cooling device capable of stably cooling a heat source is provided. A cooling device includes a first passage through which a coolant discharged from a compressor flows into a cooling unit for cooling EV equipment; a second passage through which the coolant is circulated between a heat exchanger and the cooling unit; a switching valve switching communication of the first passage and communication of the second passage; and a liquid storage container storing a liquid coolant condensed in the heat exchanger. The control method includes the steps of: increasing an amount of the liquid coolant stored in the liquid storage container; and switching the switching valve so as to block the first passage and allow communication of the second passage.

摘要翻译： 提供一种控制能够稳定地冷却热源的冷却装置的方法。 冷却装置包括第一通道，从压缩机排出的冷却剂通过该第一通道流入用于冷却EV设备的冷却单元; 第二通道，冷却剂在热交换器和冷却单元之间循环; 开关阀切换第一通道的连通和第二通道的连通; 以及储存冷凝在所述热交换器中的液体冷却剂的液体储存容器。 控制方法包括以下步骤：增加存储在液体储存容器中的液体冷却剂的量; 并切换切换阀以阻止第一通道并允许第二通道连通。

公开(公告)号：US20140311180A1

公开(公告)日：2014-10-23

申请号：US14358132

申请日：2012-11-16

申请人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

发明人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

IPC分类号： H01M8/04 ,  F25B1/00

CPC分类号： H01M8/04059 ,  B60H1/00278 ,  B60H1/00385 ,  B60H1/323 ,  B60H2001/00307 ,  F25B1/00 ,  F25B2313/0254 ,  F25B2313/02541 ,  F25B2400/0403 ,  F25B2400/0411 ,  H01M10/613 ,  H01M10/625 ,  H01M10/663

摘要： A heat exchanging system exchanging heat between refrigerant and a battery includes: a compressor circulating refrigerant; a heat exchanger exchanging heat between the refrigerant and outside air; an expansion valve decompressing the refrigerant; a heat exchanger exchanging heat between the refrigerant and air-conditioning air; a heat exchanging portion connected in parallel with the heat exchanger and exchanging heat between the refrigerant and the battery; a bypass passage providing fluid communication between a path of the refrigerant between the compressor and the heat exchanger and a path of the refrigerant between the expansion valve and the heat exchanger; an expansion valve provided in the bypass passage and decompressing the refrigerant flowing through the bypass passage; and a selector valve allowing or interrupting flow of the refrigerant via the bypass passage.

摘要翻译： 在制冷剂与电池之间交换热量的热交换系统包括：压缩机循环制冷剂; 热交换器在制冷剂和外部空气之间交换热量; 减压制冷剂的膨胀阀; 热交换器在制冷剂和空调空气之间交换热量; 热交换部，其与所述热交换器并联连接并在所述制冷剂与所述电池之间进行热交换; 旁通通道，其在压缩机和热交换器之间的制冷剂路径与膨胀阀与热交换器之间的制冷剂路径之间提供流体连通; 一个膨胀阀，设置在旁路通道中，并减压流经旁路通道的制冷剂; 以及允许或中断通过旁路通路的制冷剂流动的选择阀。

公开(公告)号：US20140250929A1

公开(公告)日：2014-09-11

申请号：US14350231

申请日：2011-10-21

申请人： Eizo Takahashi ,  Yoshiaki Kawakami ,  Yuki Jojima ,  Kousuke Sato

发明人： Eizo Takahashi ,  Yoshiaki Kawakami ,  Yuki Jojima ,  Kousuke Sato

IPC分类号： F25B1/00

CPC分类号： F25B1/005 ,  B60H1/00278 ,  B60H2001/00307 ,  F25B31/006 ,  F25B41/04 ,  F25B2600/2519

摘要： A cooling device capable of achieving cooling performance suitable for an amount of generated heat from a heat source is provided. A cooling device cooling HV equipment includes a compressor for circulating a coolant; a heat exchanger performing heat exchange between the coolant and outside air; an expansion valve decompressing the coolant; a heat exchanger performing heat exchange between the coolant and air-conditioning air; a cooling unit provided on a route of the coolant flowing between the heat exchanger and the expansion valve, and cooling the HV equipment using the coolant; a bypass route bypassing the expansion valve and the heat exchanger; and a switching valve selectively switching between a flow of the coolant flowing from the cooling unit toward the expansion valve and a flow of the coolant flowing through the bypass route.

摘要翻译： 提供一种能够实现适合于来自热源产生的热量的冷却性能的冷却装置。 冷却装置冷却HV设备包括用于使冷却剂循环的压缩机; 在冷却剂和外部空气之间进行热交换的热交换器; 减压冷却剂的膨胀阀; 在冷却剂和空调空气之间进行热交换的热交换器; 冷却单元，其设置在所述热交换器和所述膨胀阀之间流动的冷却剂的路径上，并且使用所述冷却剂来冷却所述HV设备; 绕过膨胀阀和热交换器的旁通路径; 以及选择性地切换从冷却单元朝向膨胀阀流动的冷却剂的流动的切换阀和流过旁通路径的冷却剂的流动。

公开(公告)号：US20140238056A1

公开(公告)日：2014-08-28

申请号：US14348697

申请日：2011-10-05

申请人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

发明人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

IPC分类号： F25B49/02

CPC分类号： F25B49/02 ,  B60H1/00885 ,  B60H2001/00949 ,  F25B6/04 ,  F25B25/00 ,  F25B31/006 ,  F25B31/008 ,  F25B2400/23

摘要： A method of controlling a cooling device capable of stably cooling a heat source is provided. A cooling device includes a first passage through which a coolant discharged from a compressor flows into a cooling unit for cooling EV equipment; a second passage through which the coolant is circulated between a heat exchanger and the cooling unit; a switching valve switching communication of the first passage and communication of the second passage; and a liquid storage container storing a liquid coolant condensed in the heat exchanger. The control method includes the steps of: increasing an amount of the liquid coolant stored in the liquid storage container; and switching the switching valve so as to block the first passage and allow communication of the second passage.

摘要翻译： 提供一种控制能够稳定地冷却热源的冷却装置的方法。 冷却装置包括第一通道，从压缩机排出的冷却剂通过该第一通道流入用于冷却EV设备的冷却单元; 第二通道，冷却剂在热交换器和冷却单元之间循环; 开关阀切换第一通道的连通和第二通道的连通; 以及储存冷凝在所述热交换器中的液体冷却剂的液体储存容器。 控制方法包括以下步骤：增加存储在液体储存容器中的液体冷却剂的量; 并切换切换阀以阻止第一通道并允许第二通道连通。

公开(公告)号：US09923214B2

公开(公告)日：2018-03-20

申请号：US14358132

申请日：2012-11-16

申请人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

发明人： Yoshiaki Kawakami ,  Yuki Jojima ,  Eizo Takahashi ,  Kousuke Sato

IPC分类号： F25B39/04 ,  H01M8/04007 ,  B60H1/00 ,  B60H1/32 ,  F25B1/00 ,  H01M10/625 ,  H01M10/663 ,  H01M10/613

CPC分类号： H01M8/04059 ,  B60H1/00278 ,  B60H1/00385 ,  B60H1/323 ,  B60H2001/00307 ,  F25B1/00 ,  F25B2313/0254 ,  F25B2313/02541 ,  F25B2400/0403 ,  F25B2400/0411 ,  H01M10/613 ,  H01M10/625 ,  H01M10/663

摘要： A heat exchanging system exchanging heat between refrigerant and a battery includes: a compressor circulating refrigerant; a heat exchanger exchanging heat between the refrigerant and outside air; an expansion valve decompressing the refrigerant; a heat exchanger exchanging heat between the refrigerant and air-conditioning air; a heat exchanging portion connected in parallel with the heat exchanger and exchanging heat between the refrigerant and the battery; a bypass passage providing fluid communication between a path of the refrigerant between the compressor and the heat exchanger and a path of the refrigerant between the expansion valve and the heat exchanger; an expansion valve provided in the bypass passage and decompressing the refrigerant flowing through the bypass passage; and a selector valve allowing or interrupting flow of the refrigerant via the bypass passage.

公开(公告)号：US20070072104A1

公开(公告)日：2007-03-29

申请号：US11528310

申请日：2006-09-28

申请人： Naruo Yabe ,  Kouzou Teramoto ,  Kousuke Sato ,  Tomohiko Kubo

发明人： Naruo Yabe ,  Kouzou Teramoto ,  Kousuke Sato ,  Tomohiko Kubo

IPC分类号： G03G9/08

CPC分类号： G03G9/09708 ,  G03G9/09716

摘要： When a titanium oxide surface-treated with a titanate-based coupling agent is used as an external additive on the surface of toner particles, titanium oxides are likely to be aggregated with each other and aggregated titanium oxide particles are likely to fall off from the surface of the toner. As a result, since toner particles do not support a required amount of titanium oxide particles, poor charging of the toner may occur and fog increases. Therefore, when a toner for electrostatic latent image development comprises color particles containing at least a binder resin and a colorant, and titanium oxide, as an external additive, formed on the surface of the color particles, the titanium oxide being surface-treated with a titanate-based coupling agent containing 30% or less of a solvent soluble component, aggregation of titanium oxides can be reduced and stable charging of the toner can be achieved, and thus the resulting image is stable for a long period.

摘要翻译： 当用钛酸酯类偶联剂表面处理的氧化钛作为调色剂颗粒表面的外部添加剂时，钛氧化物可能彼此聚集，聚集的氧化钛颗粒很可能从表面脱落 的调色剂。 结果，由于调色剂颗粒不支持所需量的氧化钛颗粒，所以调色剂的充电可能会发生并且雾化增加。 因此，当用于静电潜像显影的调色剂包括至少含有粘合剂树脂和着色剂的着色颗粒和形成在着色颗粒表面上的氧化钛作为外部添加剂时，用氧化钛表面处理 含有30％以下的溶剂可溶性成分的钛酸酯系偶联剂可以降低钛氧化物的聚集，可以实现调色剂的稳定充电，因此得到的图像长时间稳定。