会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
下载
著录项
PDF全文
热词
    • 1. 发明授权
      US08448429B2 Engine exhaust heat recovery device, and energy supply apparatus using the same 失效
    • Engine exhaust heat recovery device, and energy supply apparatus using the same
    • 发动机废热回收装置,以及使用其的能量供给装置
    • US08448429B2
    • 2013-05-28
    • US12734099
    • 2008-10-09
    • Jiro FukudomeMasataka Sugimoto
    • Jiro FukudomeMasataka Sugimoto
    • F01N3/02F01N5/02
    • F01N5/02F01N1/08F01N3/2885F01N3/2889F01N2240/02F01N2470/02F01N2470/24F28D7/0066F28D7/103F28D7/106F28D21/0003F28F13/02F28F13/06Y02B30/52Y02T10/16
    • [Problems] Provided is a configuration in which a member is not interposed between exhaust gas and a partition wall of an engine coolant passage, and the exhaust gas is caused to directly collide with the partition wall of the engine coolant passage, thus raising the gas flow velocity in a heat exchange part, which enables further improving the exhaust heat recovery rate.[Means for Solving Problems] An engine exhaust gas heat recovery device (1) recovers heat from engine exhaust gas by performing heat exchange between the engine exhaust gas and engine coolant. A plurality of spray holes (20) facing an inner cylinder tube (31) of a coolant passage (3) have been provided in an outer tube (22) of an exhaust gas inflow tube (2), and the exhaust gas is caused to directly collide with the inner cylinder tube (31) of the coolant passage (3). A minimum distance from each of the spray holes (20) to the inner cylinder tube (31) of the coolant passage (3) is in a range of 1.5 to 7 times the diameter of the spray holes. A relationship between a total opening area of the spray holes (20) and an exhaust gas flow rate is (total spray hole area/exhaust gas mass flow rate)=2.0 to 4.5 (cm2/(kg/min)).
    • [问题]提供一种构造,其中,构件不被插入在发动机冷却剂通道的排气和分隔壁之间,并且排气直接与发动机冷却剂通道的分隔壁碰撞,从而使气体 热交换部的流速,能够进一步提高废热回收率。 解决问题的手段发动机废气热回收装置(1)通过在发动机废气和发动机冷却剂之间进行热交换来从发动机废气中回收热量。 在废气流入管(2)的外管(22)中设置有多个与冷却剂通路(3)的内筒管(31)相对的喷孔(20),排气 与冷却剂通道(3)的内筒管(31)直接碰撞。 从冷却剂通道(3)的每个喷孔(20)到内筒管(31)的最小距离在喷孔直径的1.5至7倍的范围内。 喷雾孔(20)的总开口面积和废气流量之间的关系为(总喷射孔面积/废气质量流量)= 2.0〜4.5(cm2 /(kg / min))。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 2. 发明申请
      US20100205946A1 ENGINE EXHAUST HEAT RECOVERY DEVICE, AND ENERGY SUPPLY APPARATUS USING THE SAME 失效
    • ENGINE EXHAUST HEAT RECOVERY DEVICE, AND ENERGY SUPPLY APPARATUS USING THE SAME
    • 发动机排气热回收装置及其能源供应装置
    • US20100205946A1
    • 2010-08-19
    • US12734099
    • 2008-10-09
    • Jiro FukudomeMasataka Sugimoto
    • Jiro FukudomeMasataka Sugimoto
    • F01N3/10F01N3/02F01N5/02
    • F01N5/02F01N1/08F01N3/2885F01N3/2889F01N2240/02F01N2470/02F01N2470/24F28D7/0066F28D7/103F28D7/106F28D21/0003F28F13/02F28F13/06Y02B30/52Y02T10/16
    • [Problems] Provided is a configuration in which a member is not interposed between exhaust gas and a partition wall of an engine coolant passage, and the exhaust gas is caused to directly collide with the partition wall of the engine coolant passage, thus raising the gas flow velocity in a heat exchange part, which enables further improving the exhaust heat recovery rate.[Means for Solving Problems] An engine exhaust gas heat recovery device (1) recovers heat from engine exhaust gas by performing heat exchange between the engine exhaust gas and engine coolant. A plurality of spray holes (20) facing an inner cylinder tube (31) of a coolant passage (3) have been provided in an outer tube (22) of an exhaust gas inflow tube (2), and the exhaust gas is caused to directly collide with the inner cylinder tube (31) of the coolant passage (3). A minimum distance from each of the spray holes (20) to the inner cylinder tube (31) of the coolant passage (3) is in a range of 1.5 to 7 times the diameter of the spray holes. A relationship between a total opening area of the spray holes (20) and an exhaust gas flow rate is (total spray hole area/exhaust gas mass flow rate)=2.0 to 4.5 (cm2/(kg/min)).
    • [问题]提供一种构造,其中构件不被插入在发动机冷却剂通道的排气和分隔壁之间,并且排气直接与发动机冷却剂通道的分隔壁碰撞,从而使气体 热交换部的流速,能够进一步提高废热回收率。 解决问题的手段发动机废气热回收装置(1)通过在发动机废气和发动机冷却剂之间进行热交换来从发动机废气中回收热量。 在废气流入管(2)的外管(22)中设置有多个与冷却剂通路(3)的内筒管(31)相对的喷孔(20),排气 与冷却剂通道(3)的内筒管(31)直接碰撞。 从冷却剂通道(3)的每个喷孔(20)到内筒管(31)的最小距离在喷孔直径的1.5至7倍的范围内。 喷雾孔(20)的总开口面积和废气流量之间的关系为(总喷射孔面积/废气质量流量)= 2.0〜4.5(cm2 /(kg / min))。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 3. 发明授权
      US08850840B2 Desiccant air conditioner 有权
    • Desiccant air conditioner
    • 干燥剂空调
    • US08850840B2
    • 2014-10-07
    • US13127775
    • 2009-10-23
    • Jiro Fukudome
    • Jiro Fukudome
    • F24F12/00F24F3/14F24F3/153F24F3/147
    • F24F3/147F24F3/1423F24F3/153F24F12/006F24F2203/1052F24F2203/1092Y02B30/16Y02B30/563
    • A desiccant air conditioner includes an intake path that introduces air SA from outdoors to indoors, an exhaust path that exhausts air RA from indoors to outdoors, a desiccant rotor adapted to perform dehumidification by adsorbing moisture in air SA flowing through the intake path and regenerate dehumidifying capacity by releasing moisture into air RA flowing through the exhaust path, heating heat exchangers that heat air RA in the exhaust path, and a sensible heat exchanger that performs heat exchange between air RA flowing through the intake path and air SA flowing through the exhaust path, wherein two dehumidification regions, the first dehumidification region and the second dehumidification region, through which air in the intake path passes and two regeneration regions, the first regeneration region and the second regeneration region, through which the air RA in the exhaust path passes are alternately formed in the desiccant rotor.
    • 干燥剂空调包括从室外引入空气SA至室内的进气路径,将室内空气RA从室内排出到室外的排气路径,适于通过吸附流过进气路径的空气SA中的水分进行除湿的干燥剂转子,再生除湿 将流入排气路径的空气中的水分释放出来,加热排气路径中的空气RA的加热热交换器的热敏换热器以及流过吸气通路的空气RA与流过排气路径的空气SA之间进行热交换的显热换热器 其中,所述第二除湿区域和所述第二除湿区域,所述第一除湿区域和所述第二除湿区域,所述第一除湿区域和所述第二除湿区域,所述第一再生区域和所述第二再生区域,所述第一再生区域和所述第二再生区域, 交替地形成在干燥剂转子中。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 5. 发明申请
      US20110214446A1 DESICCANT AIR CONDITIONER 有权
    • DESICCANT AIR CONDITIONER
    • 冷气调节器
    • US20110214446A1
    • 2011-09-08
    • US13127775
    • 2009-10-23
    • Jiro Fukudome
    • Jiro Fukudome
    • F25D31/00
    • F24F3/147F24F3/1423F24F3/153F24F12/006F24F2203/1052F24F2203/1092Y02B30/16Y02B30/563
    • A desiccant air conditioner includes an intake path that introduces air SA from outdoors to indoors, an exhaust path that exhausts air RA from indoors to outdoors, a desiccant rotor adapted to perform dehumidification by adsorbing moisture in air SA flowing through the intake path and regenerate dehumidifying capacity by releasing moisture into air RA flowing through the exhaust path, heating heat exchangers that heat air RA in the exhaust path, and a sensible heat exchanger that performs heat exchange between air RA flowing through the intake path and air SA flowing through the exhaust path, wherein two dehumidification regions, the first dehumidification region and the second dehumidification region, through which air in the intake path passes and two regeneration regions, the first regeneration region and the second regeneration region, through which the air RA in the exhaust path passes are alternately formed in the desiccant rotor.
    • 干燥剂空调包括从室外引入空气SA至室内的进气路径,将室内空气RA从室内排出到室外的排气路径,适于通过吸附流过进气路径的空气SA中的水分进行除湿的干燥剂转子,再生除湿 将流入排气路径的空气中的水分释放出来,加热排气路径中的空气RA的加热热交换器的热敏换热器以及流过吸气通路的空气RA与流过排气路径的空气SA之间进行热交换的显热换热器 其中,所述第二除湿区域和所述第二除湿区域,所述第一除湿区域和所述第二除湿区域,所述第一除湿区域和所述第二除湿区域,所述第一再生区域和所述第二再生区域,所述第一再生区域和所述第二再生区域, 交替地形成在干燥剂转子中。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
每页展示10个专利
每页展示10个专利
每页展示20个专利
每页展示50个专利
每页展示100个专利

IPRDB

最新中国发明专利 最新美国发明专利 技术领域 专利库 专利分类库 国际专利分类库

热门服务

会员版试用 API 数据接口 找代理 知嘟嘟专利交易 排行榜 大学排行榜 专利百科

关于我们

平台介绍 战略合作 网站地图

友情链接

知嘟嘟专利交易 国家知识产权局 中国商标网

联系方式


©2019-2023 上海吉码数字技术有限公司 版权所有,并保留所有权利 沪ICP备20016256号-6 沪公网安备31011702005475号