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    • 1. 发明专利
    • Plasma generator and cvd device
    • 等离子体发生器和CVD装置
    • JP2013004474A
    • 2013-01-07
    • JP2011137661
    • 2011-06-21
    • Toshiba Mitsubishi-Electric Industrial System Corp東芝三菱電機産業システム株式会社Mitsubishi Electric Corp三菱電機株式会社
    • TABATA YOICHIROWATANABE KENSHIOINUMA MANABUINANAGA YASUTAKA
    • H05H1/24C23C16/503H01L21/31
    • PROBLEM TO BE SOLVED: To provide a plasma generator of a simple configuration capable of efficiently taking out generated plasma excitation gas.SOLUTION: A plasma generator comprises an electrode cell, a power supply 17 which applies an AC voltage to the electrode cell, a housing which surrounds the electrode cell, and a material gas supply section which supplies a material gas from the outside of the housing to the outer periphery of the electrode cell. The electrode cell includes a low voltage electrode 1, a high voltage electrode 3, and dielectrics 2a, 2b, has a dielectric barrier discharge space 6, and is a doughnut shape with a penetration hole PH. The plasma generator further comprises an insulation cylinder 21 disposed in the penetration hole PH and having a jet hole 21x in a cylindrical side surface, and a pressure reduction unit which reduces the pressure in the cavity 21A of the insulation cylinder 21.
    • 要解决的问题:提供能够有效地取出产生的等离子体激发气体的简单配置的等离子体发生器。 解决方案:等离子体发生器包括电极单元,向电极单元施加AC电压的电源17,围绕电极单元的壳体和从外部供应材料气体的材料气体供应部分 壳体到电极单元的外周。 电极单元包括低电压电极1,高电压电极3和电介质2a,2b,具有介质阻挡放电空间6,并且是具有穿透孔PH的环形形状。 等离子体发生器还包括设置在穿透孔PH中并且具有在圆柱形侧表面中的喷射孔21x的绝缘筒21和减小绝缘筒21的空腔21A中的压力的​​减压单元。 (C)2013,JPO&INPIT
    • 2. 发明专利
    • Frictional charging device and electrostatic sorting device
    • 自动充电装置和静电分离装置
    • JP2012240030A
    • 2012-12-10
    • JP2011115833
    • 2011-05-24
    • Mitsubishi Electric Corp三菱電機株式会社
    • MATSUMURA MITSUIEENDO YASUHIROINANAGA YASUTAKATSUTSUI KAZUNARI
    • B03C7/02B03C7/12B29B17/00
    • Y02W30/62
    • PROBLEM TO BE SOLVED: To provide a frictional charging device and an electrostatic sorting device which are simple in device composition and make variations in charging time smaller while securing necessary charging time.SOLUTION: The frictional charging device 10 makes a mixture 1 of two or more kinds of plastic electrically charged. The device concerned includes: a tubular charging container 2 having, in its one end, an inlet opening 2a for receiving the mixture 1 of two or more kinds of plastic and, in the other end, an outlet opening 2b for discharging the mixture 1 of two or more kinds of plastic; and a ring-shaped partition plate 3 which is fixed to the inner periphery of the charging container 2, partitions the inner space IS of the charging container 2, and has an aperture hole 3a at its center.
    • 要解决的问题:提供一种摩擦充电装置和静电分选装置,其在设备组成上简单,并且在确保必要的充电时间的同时使充电时间的变化更小。 解决方案:摩擦充电装置10使两种或更多种塑料的混合物1充电。 所涉及的装置包括:管状充电容器2,其一端具有用于容纳两种或多种塑料的混合物1的入口2a,另一端具有用于将混合物1排出的出口2b 两种以上塑料; 以及固定在充电容器2的内周的环状隔板3,分隔充电容器2的内部空间IS,并且在其中心具有开孔3a。 版权所有(C)2013,JPO&INPIT
    • 3. 发明专利
    • Gas cleaning method and gas cleaning apparatus
    • 气体清洁方法和气体清洁装置
    • JP2004089708A
    • 2004-03-25
    • JP2003288395
    • 2003-08-07
    • Mitsubishi Electric Corp三菱電機株式会社
    • TANIMURA YASUHIROKUZUMOTO MASAKIINANAGA YASUTAKAOTA KOJIKURAHASHI MASATO
    • A61L9/01A61L9/16A61L9/20A62D3/176A62D3/19A62D3/30A62D101/28B01J19/08F24F7/00F24F7/06A62D3/00
    • PROBLEM TO BE SOLVED: To provide a gas cleaning method and a gas cleaning apparatus at low costs and easy in maintenance, which can decompose and remove chemical substances with high efficiency.
      SOLUTION: Under the atmosphere, after particulate matters are removed from the gas 8 which contains the particulate matters and the chemical substances, the chemical substances are collected by an adsorbent 3. While the moisture in the gas is collected, the adsorbent 3 which collected the chemical substances is maintained as zero electric potential, and the electric discharge is conducted between the adsorbent and an electrode. By the active species produced on the surface of the adsorbent by the electric discharge, or by the active species produced by the reaction between the irradiated active species and the moisture existing in the atmosphere or on the surface of the adsorbent 3, the chemical substances adsorbed on the adsorbent are decomposed and removed.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种低成本且易于维护的气体清洁方法和气体清洁装置,其可以高效率地分解和去除化学物质。 解决方案:在大气中,在从含有颗粒物质和化学物质的气体8中除去颗粒物质之后,化学物质被吸附剂3收集。当收集气体中的水分时,吸附剂3 收集的化学物质维持为零电位,并且在吸附剂和电极之间进行放电。 通过放电在吸附剂表面产生的活性物质,或通过被照射的活性物质与存在于大气中或吸附剂3表面的水分反应产生的活性物质,吸附的化学物质 在吸附剂上分解除去。 版权所有(C)2004,JPO
    • 4. 发明专利
    • Humidification apparatus
    • 湿度仪
    • JP2014129892A
    • 2014-07-10
    • JP2012286486
    • 2012-12-28
    • Mitsubishi Electric Corp三菱電機株式会社
    • SAKAI TAKAHIROMORIKAWA AKIRAINANAGA YASUTAKATANIMURA YASUHIRO
    • F24F6/04F24F6/00
    • PROBLEM TO BE SOLVED: To suppress short circuit in a humidification apparatus forming an electric field between a porous metal body containing water for humidification and a conductor electrode.SOLUTION: A humidification apparatus includes: a porous metal body 3 formed in a three-dimensional network structure having a plurality of gap parts; a conductor electrode 4 arranged at an interval with the porous metal body 3 so as to face the porous metal body 3; a power source 5 for applying a voltage to the conductor electrode 4; a supply part 2 for supplying water to the porous metal body 3; and a blower means 6 for sending air to the porous metal body 3 and the conductor electrode 4. A height difference is provided between the two in such a manner that an upper end of the porous metal body 3 becomes higher than an upper end of the conductor electrode 4.
    • 要解决的问题:抑制在包含加湿水的多孔金属体和导体电极之间形成电场的加湿装置中的短路。解决方案:一种加湿装置,包括:形成在三维网络中的多孔金属体3 结构具有多个间隙部分; 与多孔金属体3间隔配置以面对多孔金属体3的导体电极4; 用于向导体电极4施加电压的电源5; 用于向多孔金属体3供水的供给部2; 以及用于向多孔金属体3和导体电极4输送空气的送风装置6.在两者之间设置高度差,使得多孔金属体3的上端高于上述多孔金属体3的上端。 导体电极4。
    • 5. 发明专利
    • Ignition device
    • 点火装置
    • JP2013024198A
    • 2013-02-04
    • JP2011162080
    • 2011-07-25
    • Mitsubishi Electric Corp三菱電機株式会社
    • IWAMOTO TAKASHINAGANO TAKAFUMIWATANABE MASAHIROSATO MINORUNISHIMAE JUNICHIINANAGA YASUTAKA
    • F02P3/01F02B23/08F02P23/04
    • Y02T10/125
    • PROBLEM TO BE SOLVED: To provide an ignition device in which utilization efficiency of supplied energy is improved by suppressing the waste of energy caused by impedance mismatching and energy dissipation to heat.SOLUTION: An ignition device includes a voltage waveform generation means 2 and a high electric field application means 3. The voltage waveform generation means 2 generates the voltage waveform of the duration of time shorter than a time when impedance of mixture gas in an internal combustion engine is reduced, in a cycle including a short repetition cycle. The high electric field application means 3 applies a voltage to the internal combustion engine before or after applying an ignition pulse, on the basis of the voltage waveform generated by the voltage waveform generation means 2.
    • 要解决的问题:提供一种点火装置,其中通过抑制由阻抗不匹配和能量耗散到热量引起的能量浪费来提高供给能量的利用效率。 解决方案:点火装置包括电压波形发生装置2和高电场施加装置3.电压波形发生装置2产生电压波形,其持续时间比在 在包括短重复循环的循环中,内燃机减少。 高电场施加装置3基于由电压波形生成装置2产生的电压波形,在施加点火脉冲之前或之后向内燃机施加电压。(C)2013,JPO&INPIT
    • 6. 发明专利
    • Apparatus for generating active particle
    • 用于生成活性颗粒的装置
    • JP2010272355A
    • 2010-12-02
    • JP2009123251
    • 2009-05-21
    • Mitsubishi Electric CorpToshiba Mitsubishi-Electric Industrial System Corp三菱電機株式会社東芝三菱電機産業システム株式会社
    • OINUMA MANABUINANAGA YASUTAKATANIMURA YASUHIROKUZUMOTO MASAKIWATANABE KENSHI
    • H05H1/24B01J19/08B08B7/00H01L21/31
    • PROBLEM TO BE SOLVED: To provide an apparatus for generating an active particle by which the generation density and generation efficiency of the active particle having a predetermined service life shorter than a life of ozone can be improved.
      SOLUTION: The apparatus for generating the active particle applies a high voltage between a ground electrode 1 and a high voltage electrode 2 which is opposite to the ground electrode 1 via an air gap and of which the surface on the air gap side is covered with a dielectric 4 to generate dielectric barrier discharge therebetween, and supplies a raw material gas 8 to the air gap to generate the active particle by the dielectric barrier discharge. A value obtained by dividing the service life of the active particle by the average time when the raw material gas 8 stays in the air gap is not smaller than 0.1 or not larger 10, and discharge power supplied to a unit area of the ground electrode 1 and the high voltage electrode 2 is increased from an upstream side of the raw material gas flow toward a downstream side thereof.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种生成活性粒子的装置,通过该装置可以提高具有比臭氧寿命短的预定寿命的活性粒子的发生密度和发电效率。 解决方案:用于产生有源粒子的装置经由气隙在接地电极1和与接地电极1相对的高压电极2之间施加高电压,其中气隙侧的表面为 覆盖有电介质4以在其间产生电介质阻挡放电,并且将原料气体8供应到气隙,以通过电介质阻挡放电产生活性粒子。 通过将活性粒子的使用寿命除以原料气体8停留在气隙中的平均时间而得到的值为0.1以上10以上,供给到接地电极1的单位面积的放电电力 并且高压电极2从原料气流的上游侧向其下游侧增加。 版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • 加湿器
    • JP2014202397A
    • 2014-10-27
    • JP2013077768
    • 2013-04-03
    • 三菱電機株式会社Mitsubishi Electric Corp
    • KITAO TOMOYUKIISHIKAWA HIROAKISAKAI KEITAINANAGA YASUTAKASAKAI TAKAHIRO
    • F24F6/04F24F6/00
    • 【課題】給水管の給水穴の穴径等を調節する手間を省くことができ、加湿材全体を容易に濡らすことができる給水構造を備えた加湿器を得る。【解決手段】加湿器筐体1と、供給水20を内部に溜めることができ、上部に給水穴9が形成された給水管4と、吸水性部材で構成され、給水穴9を含む給水管4の周囲を包む不織布5と、不織布5よりも気孔径が大きい吸水性部材で構成され、加湿器筐体1内に配置されて不織布5と上部で接触する加湿材2とを備えた。【選択図】図2
    • 要解决的问题:获得一种加湿器,其包括能够节省用于调节供水管的供水孔的孔直径等并能够容易地润湿整个加湿材料的供水结构的加湿器。解决方案:A 加湿器包括:加湿器壳体1; 可以储存供水20的供水管4,其上部形成有供水孔9; 由吸水部件构成并覆盖包括供水孔9的供水管4的周边的无纺布5; 以及加湿材料2,其由布置在加湿器壳体1内的孔径比无纺布5大的吸水部件制成,并且其上部与无纺布5接触。
    • 8. 发明专利
    • Ozone feeding system and effluent treatment system
    • 臭氧进料系统和液体处理系统
    • JP2014065620A
    • 2014-04-17
    • JP2012210345
    • 2012-09-25
    • Mitsubishi Electric Corp三菱電機株式会社
    • WADA NOBORUTANIMURA YASUHIROINANAGA YASUTAKAOTA KOJI
    • C01B13/10B01D53/04C01B13/11C02F3/12C02F11/06
    • Y02W10/15
    • PROBLEM TO BE SOLVED: To obtain an ozone feeding system capable of executing, in a high efficiency and in a stable manner, an intermittent feed of a high-concentration ozone gas and an effluent treatment system using the same.SOLUTION: In an ozone feeding system including an ozone generator 2 for generating an ozonated oxygen gas by inducing a discharge within a raw ingredient gas including nitrogen and an adsorption/desorption device (adsorption/desorption column 3) for adsorbing or desorbing ozone onto or from an adsorbent depending on temperatures and alternately executing a first mode of cooling the adsorption/desorption device at or below a first temperature so as to induce the adsorption of ozone within the ozonated oxygen gas onto the adsorbent and a second mode of elevating the temperature of the adsorption/desorption device to a level higher than the first temperature so as to output a gas including ozone at a concentration higher than that of the ozonated oxygen gas generated by the ozone generator 2, a nitrogen oxide removal device (NOtrap 4) is configured between the ozone generator 2 and the adsorption/desorption device.
    • 要解决的问题:为了获得能够以高效率和稳定的方式执行高浓度臭氧气体和使用其的污水处理系统的间歇进料的臭氧进料系统。解决方案:在臭氧进料 系统包括:臭氧发生器2,用于通过在包含氮气的原料气体内引起排放而产生臭氧氧化物;以及吸附/解吸装置(吸附/解吸塔3),用于根据温度和/或从吸附剂吸附或解吸臭氧; 交替地执行在第一温度或低于第一温度下冷却吸附/解吸装置的第一模式,以便引起臭氧在臭氧化氧气中吸附到吸附剂上,以及将吸附/解吸装置的温度升高到第二模式 高于第一温度,以便产生浓度高于所产生的臭氧氧气的浓度的包含臭氧的气体 通过臭氧发生器2,在臭氧发生器2和吸附/解吸装置之间配置氮氧化物去除装置(NO捕集器4)。
    • 9. 发明专利
    • Ozone generating tube and ozone generating apparatus
    • 臭氧发生管和臭氧发生装置
    • JP2013049582A
    • 2013-03-14
    • JP2011186986
    • 2011-08-30
    • Mitsubishi Electric Corp三菱電機株式会社
    • NAGAYAMA TAKAHISAWADA NOBORUINANAGA YASUTAKAODAI YOSHIAKICHIKAISHI TADAHIRO
    • C01B13/11
    • PROBLEM TO BE SOLVED: To provide an easily-assembleable ozone generating tube excellent in mass productivity, and to provide an ozone generating apparatus.SOLUTION: This ozone generating tube includes: an outer tube which is a tube having a closed one end, wherein at least a part of the outer surface is a conductive body; an insulating sealing member provided on the open end side of the outer tube; an inner tube which is arranged at a prescribed interval from an inner wall of the outer tube, with a sectional outer shape having a similar shape to an inner wall sectional shape of the outer tube, inside a space surrounded by the outer tube and the insulating sealing member, and which has opened both ends wherein at least a part of the inner surface is a conductive body; a conductive partition which partitions the inner space of the inner tube, and is connected electrically to the conductive body of the inner tube; a conductive first conduit which is inserted into the partition, and is provided protrusively from the insulating sealing member to the outside through the insulating sealing member; and a second conduit which is provided protrusively from the outside of the insulating sealing member to a space on the furthermore insulating sealing member side than the partition through the insulating sealing member.
    • 要解决的问题:提供一种容易组装的大规模生产率的臭氧发生管,并提供一种臭氧发生装置。 解决方案:该臭氧发生管包括:外管,其是具有封闭的一端的管,其中外表面的至少一部分是导电体; 设置在所述外管的开口端侧的绝缘密封构件; 从外管的内壁以规定间隔配置的内管,其外形形状与外管的内壁截面形状相同,在由外管包围的空间内,绝缘体 密封构件,并且其开口两端,其中内表面的至少一部分是导电体; 导电隔板,其分隔内管的内部空间,并且与内管的导电体电连接; 导电的第一导管,其插入隔板中,并且通过绝缘密封构件从绝缘密封构件突出地设置到外部; 以及第二导管,其从所述绝缘密封构件的外侧突出地设置在比所述绝缘密封构件的隔壁更远的绝缘密封构件侧的空间。 版权所有(C)2013,JPO&INPIT
    • 10. 发明专利
    • Virus and microorganism removal device
    • 病毒和微生物去除装置
    • JP2013043114A
    • 2013-03-04
    • JP2011181866
    • 2011-08-23
    • Mitsubishi Electric Corp三菱電機株式会社
    • OTA KOJIINANAGA YASUTAKAMORIKAWA AKIRASAKAI TAKAHIRO
    • B03C3/155A61L9/14A61L9/22B01D46/18B01D46/42B03C3/02B03C3/74
    • PROBLEM TO BE SOLVED: To provide a virus and microorganism removal device suppressing decline in a function to capture viruses and microorganisms.SOLUTION: The virus and microorganism removal device includes: an air duct casing 10; an air blower 1 taking air into the air duct casing 10; a charging part 60 installed within the air duct casing 10 and charging floating substances taken in together with air by the air blower 1; a filter 6 installed within the air duct casing 10 and capturing the floating substances charged by the charging part 60; an inactivation part 61 installed on the downstream side of the charging part 60 within the air duct casing 10, having two electrodes 5, 7 arranged opposing to each other at a predetermined interval sandwiching the filter 6, inducing electricity to the filter 6 by application of voltage to the two electrodes 5, 7 and inactivating the floating substances captured by the filter 6; an automatic cleaning mechanism 11 removing the floating substances captured by the filter 6; and a control part 50 controlling the automatic cleaning mechanism 11.
    • 要解决的问题:提供抑制捕获病毒和微生物的功能下降的病毒和微生物去除装置。 病毒和微生物去除装置包括:空气管壳10; 吹风机1将空气吸入空气管壳体10; 充电部60,安装在风道壳体10内,并且通过鼓风机1对与空气一起摄取的浮动物质进行充电; 安装在风管壳体10内的过滤器6,并且捕获由充电部60充电的浮动物质; 安装在空气管道壳体10内的充电部60的下游侧的失活部61,具有以预定的间隔相对配置的夹着过滤器6的两个电极5,7,通过施加向过滤器6 电压到两个电极5,7,并使由过滤器6捕获的浮动物质失活; 清除由过滤器6捕获的漂浮物质的自动清洁机构11; 控制部件50控制自动清洗机构11.版权所有:(C)2013,JPO&INPIT