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~
热词
    • 71. 发明专利
    • Mixed liquid separation method
    • 混合液体分离方法
    • JP2014004537A
    • 2014-01-16
    • JP2012142294
    • 2012-06-25
    • Bridgestone Corp株式会社ブリヂストン
    • KO HITOMIOZAWA YOICHI
    • B01D1/16B01D1/14B01D45/12
    • PROBLEM TO BE SOLVED: To provide a mixed liquid separation method which has excellent separation accuracy and can stably separate mixed liquid with low energy and high efficiency.SOLUTION: A mixed liquid separation method to separate one liquid from mixed liquid containing at least first liquid and second liquid having a higher boiling point than the first liquid comprises: a spraying process where spraying means to spray the mixed liquid sprays the same into a container which is supplied with heated gas to a temperature higher than the boiling point of at least either the first liquid or the second liquid from heated gas supply means and has at least an exhaust port to exhaust gas; a gasification process to gasify at least the first liquid by placing the mixed liquid sprayed into the container in contact with the heated gas; an exhaust process to exhaust mixed gas containing at least the first liquid gasified in the gasification process through an exhaust port of the container; and a separation process to separate the second liquid from the mixed gas under pressure lower than standard atmospheric pressure in a separation vessel which is supplied with the mixed gas exhausted from the container.
    • 要解决的问题:提供一种具有优异的分离精度并能够以低能量和高效率稳定地分离混合液的混合液体分离方法。溶液:一种将液体从含有至少第一液体和 具有比第一液体沸点高的第二液体包括:喷雾方法,其中喷雾混合液体的喷雾装置将其喷入容器中,所述容器被供给加热气体至高于至少第一 液体或来自加热气体供给装置的第二液体,并且至少具有排气口以排出废气; 通过将喷射到容器中的混合液体与加热的气体接触来使至少第一液体气化的气化过程; 废气处理,以排出至少包含在气化过程中气化的第一液体的混合气体,通过容器的排气口; 以及在从容器排出的混合气体供给的分离容器中分离第二液体与混合气体在低于标准大气压的压力下的分离方法。
    • 72. 发明专利
    • Dust collector for grain dryer
    • 颗粒干燥机垃圾收集器
    • JP2014004516A
    • 2014-01-16
    • JP2012141238
    • 2012-06-22
    • Sasagawa Noki Kk笹川農機株式会社
    • SASAGAWA TAKASHI
    • B04C9/00B01D45/12B01D47/02B01D50/00B04C5/02B04C5/185F26B9/06
    • PROBLEM TO BE SOLVED: To improve a work environment, and to improve flexibility of use to a grain dryer of respective makers, without scattering about dust to the vicinity, while enhancing dust collection efficiency, by preventing leakage of dust-containing air from between an outer peripheral surface of a connection pipe and an inner peripheral surface of a dust-containing hose.SOLUTION: A cyclone unit body 3 is erected by setting its axis N in the vertical direction by a leg body 7, and an introducing port part 4 of the dust-containing air W is arranged on a side peripheral surface of the cyclone unit body, and the introducing port part is connected with the dust-containing hose 16 for introducing the dust-containing air forcibly discharged from a dust discharge port 2 of the grain dryer 1, and an exhaust port part 5 of air K is arranged on an upper surface of the cyclone unit body, and a dust falling port part 6 is arranged on an under surface of the cycline unit body, and a dust collection bag 12 for collecting the dust M is detachably arranged in the dust falling port part by a bag support part 10, and the connection pipe 17 for connecting the dust-containing hose is arranged in the introducing port part, and the outer peripheral surface of the connection pipe is formed on a tapering-off taper surface 17a.
    • 要解决的问题:为了改善工作环境,并且为了提高各制造商的谷物干燥机的使用灵活性,并且不会在附近散布灰尘,同时通过防止含尘空气从 连接管的外周面和含尘软管的内周面。解决方案:旋转单元体3通过腿体7在竖直方向上设定其轴线N而竖立,并且引入口部分4 含尘空气W布置在旋风单元主体的侧面上,并且引入口部分与含尘软管16连接,用于将从灰尘排出口2强制排出的含灰尘的空气引入 谷物干燥机1和空气K的排气口部5布置在旋风单元主体的上表面上,并且灰尘落下端口部6布置在循环单元主体的下表面上, 用于收集灰尘的收集袋12通过袋支撑部分10可拆卸地布置在灰尘落下端口部分中,并且用于连接含尘软管的连接管17布置在引入口部分中,并且外周面 连接管形成在锥形锥形表面17a上。
    • 73. 发明专利
    • Water separator
    • 水分离器
    • JP2013248934A
    • 2013-12-12
    • JP2012123931
    • 2012-05-31
    • Shimadzu Corp株式会社島津製作所
    • YAMAMOTO MASAYUKI
    • B64D13/06B01D45/12
    • Y02T50/56
    • PROBLEM TO BE SOLVED: To provide a water separator to be used in an aircraft air conditioning system, in order to solve the following problems: a conventional water separator has long piping, so that air flow resistance and pressure loss are increased due to friction between a swirling flow and a downstream piping wall; and there is a need to increase a ratio of engine bleed air, which is a drive power source for flying an aircraft, to be supplied to an air conditioning system, thereby reducing the fuel economy of the aircraft.SOLUTION: On the downstream side of a swirling flow generation element of a water separator to be used in an aircraft air conditioning system, an axial flow generation element is disposed for biasing a swirling flow toward a downstream piping center along a swirling direction, thereby reducing pressure loss of the water separator, reducing a ratio of engine bleed air to be supplied to the air conditioning system, and improving fuel economy of the aircraft.
    • 要解决的问题:为了提供一种用于飞机空调系统的水分离器,以解决以下问题:常规的水分离器具有长的管道,使得由于摩擦而导致气流阻力和压力损失增加 旋流和下游管壁; 并且需要增加作为用于飞行的飞行器的驱动动力源的发动机排放空气的比例以供应到空调系统,从而降低飞行器的燃料经济性。解决方案:在下游 在飞机空调系统中使用的水分离器的回旋流产生元件,设置有轴向流产生元件,用于沿着旋转方向向下游管道中心施加旋流,从而减小水分离器的压力损失, 减少供应给空调系统的发动机排出空气的比例,并提高飞机的燃油经济性。
    • 74. 发明专利
    • Oil mist removal device
    • JP5356834B2
    • 2013-12-04
    • JP2009003238
    • 2009-01-09
    • アマノ株式会社
    • 功一 北林匠 瀬尾慎二郎 勝島正人 福島政記 西田
    • B01D45/12B01D45/08B04B5/12
    • PROBLEM TO BE SOLVED: To provide an oil mist eliminator increasing oil mist collection capacity, operable for a long term with extremely simple maintenance without requiring replacement of a primary side filter. SOLUTION: The oil mist eliminator includes a rotary disk 18 coaxially rotating with an output shaft 11a, a plurality of meshes 19 provided near an outer periphery of the rotary disk 18, and a fixed blade body 21 for guiding air flow whirling in the same direction with the rotation direction of the rotary disk 18. The oil mist eliminator separates relatively large dust, such as cutting powder, contained in oil mist by centrifugal force of the whirling air flow from dust-containing air flow containing the oil mist sucked from a sucking port 15 by sucking action caused by the rotation of a suction fan 14, and flips off the oil mist rising up in a whirl by the meshes 19, rotating in the direction reverse to the whirling direction of the whirling air flow, toward the outer circumference, while impinging the oil mist against the meshes, to thereby drain the oil from an outer cylinder 13. COPYRIGHT: (C)2010,JPO&INPIT
    • 75. 发明专利
    • Exhaust gas treatment device for ship diesel engine using fuel of lower quality than heavy oil
    • 使用低质量比重油的燃料的船用柴油发动机的排气处理装置
    • JP2013238172A
    • 2013-11-28
    • JP2012111956
    • 2012-05-15
    • Usui Kokusai Sangyo Kaisha Ltd臼井国際産業株式会社
    • FURUKATA MUNEKATSUMAKINO YOSHITAKIGAWA KAZUYOSHI
    • F01N3/01B01D45/08B01D45/12B01D50/00B03C3/14B03C3/15B03C3/40B03C3/41B03C3/49F01N3/02F01N3/037F02M25/07
    • B03C3/06B01D45/08B01D45/12B03C3/017B03C3/025B03C3/15B03C3/368B03C3/41B03C3/49B03C3/88B03C2201/10B03C2201/30F01N3/01F01N3/02F01N3/037F02M26/35Y02T10/20
    • PROBLEM TO BE SOLVED: To provide an exhaust gas purification device for a ship diesel engine with which it is possible to achieve a reduction in size of a cyclone as well as high PM collection rate and low fuel consumption.SOLUTION: In an exhaust gas treatment device for a ship diesel engine using fuel of lower quality than heavy oil, provided with a dust collection means which has a discharge electrode 1-2 for electrically charging particulate matter contained in exhaust gas from the ship diesel engine using the fuel of lower quality than heavy oil and a tubular collection unit 1-1 constituting a dust collection electrode for collecting the electrically charged particulate matter and which separates and collects the particulate matter peeled from the tubular collection unit, a low-concentration exhaust gas extraction pipe 3 is provided in the vicinity of an axial center at a downstream side of the tubular collection unit, a high-concentration exhaust gas extraction unit 1-1b is provided in the vicinity of an inner peripheral surface at a downstream side of the tubular collection unit, a dust collection means for collecting the particulate matter is continuously provided to the high-concentration exhaust gas extraction unit, an exhaust gas recirculation pipe 2-2 is provided between the dust collection means, the ship diesel engine, and the tubular collection unit, and a kinetic energy providing means for the exhaust gas recirculating in a recirculation pipe is provided.
    • 要解决的问题:提供一种用于船用柴油发动机的废气净化装置,其可以实现旋风分离器的尺寸减小以及高的PM收集率和低的燃料消耗。解决方案:在废气处理 使用具有比重油质量低的燃料的船用柴油发动机的装置,设置有集尘装置,该集尘装置具有放电电极1-2,用于使用低于质量比的燃料对来自船用柴油发动机的废气中所含的颗粒物质进行充电 重油和管状收集单元1-1,其构成用于收集带电粒子物质的集尘电极,并分离并收集从管状收集单元剥离的颗粒物质,低浓度排气抽取管3设置在 在管状收集单元的下游侧的轴心附近,设置有高浓度排气抽取单元1-1b 在管状收集单元的下游侧的内周面附近,向高浓度排气抽取单元连续地设置有用于收集颗粒物质的集尘装置,排气再循环管2-2 设置在集尘装置,船用柴油发动机和管状收集单元之间,并且提供用于在循环管中再循环的排气的动能提供装置。
    • 77. 发明专利
    • Gas-liquid separation device
    • 气液分离装置
    • JP2013233508A
    • 2013-11-21
    • JP2012107460
    • 2012-05-09
    • Nippon Soken Inc株式会社日本自動車部品総合研究所Denso Corp株式会社デンソー
    • KIMURA YUSUKENAKANO TOMOAKIKOI RYOJIYAMAMOTO YOSHIAKI
    • B01D45/12B01D51/02F01M13/04
    • PROBLEM TO BE SOLVED: To provide a gas-liquid separation device capable of improving separation efficiency of liquid included in a gas-liquid mixture.SOLUTION: A passage 25 allowing a blow-by gas to flow therethrough is formed between an outer wall 211 of a filter 21 arranged on a center axis of a housing 20 and an inner wall 201 of the housing 20. A pre-treatment blow-by gas to be introduced into the housing 20 from a tangential direction of the housing 20 forms a swirl flow in the housing 20. Oil mist tending to gether at the center of the swirl flow and small in particle size is collected by the filter 21, aggregates on the filter 21 and can be thereby separated from the pre-treatment blow-by gas by centrifugal force. When the filter 21 clogs, the pre-treatment blow-by gas passes through the passage 25 without passing through the inside of the filter 21, and can thereby separate oil mist large in particle size to be discharged to the outside of the housing 20.
    • 要解决的问题:提供一种能够提高包含在气液混合物中的液体的分离效率的气液分离装置。解决方案:允许窜气通过的通道25形成在外壁211 布置在壳体20的中心轴线和壳体20的内壁201上的过滤器21.从壳体20的切线方向引入到壳体20中的预处理窜气被形成涡流 壳体20.通过过滤器21收集涡流中心并且粒径小的油雾,在过滤器21上聚集,并且可以通过离心力与预处理的窜气分离 。 当过滤器21堵塞时,预处理窜气通过通道25而不通过过滤器21的内部,从而可以将大的颗粒尺寸的油雾分离以排出到外壳20的外部。