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    • 1. 发明专利
    • Liquid treatment apparatus
    • 液体处理设备
    • JP2014061462A
    • 2014-04-10
    • JP2012206542
    • 2012-09-20
    • Toshiba Corp株式会社東芝
    • IDE KENJIABE NORIMITSUKOBAYASHI SHINJISHIROTA AKIHIKOTAKEUCHI KENJI
    • C02F1/32
    • PROBLEM TO BE SOLVED: To provide a liquid treatment apparatus capable of irradiating water to be treated with all of the ultraviolet light emitted from an ultraviolet lamp neither too much nor too little, in order to sufficiently treat water with ultraviolet light even if the kind or quantity of water is varied.SOLUTION: The liquid treatment apparatus includes a water-passing drum through the inner part of which liquid to be treated flows, and to which outer piping through which the liquid to be treated flows is connected so as to configure a flow path of the liquid to be treated. An ultraviolet-irradiating unit has an ultraviolet lamp for irradiating the liquid to be treated with ultraviolet light and is provided in the water-passing drum, and a rectification member is provided in a flow path between the outer piping and the ultraviolet-irradiating unit to rectify the liquid to be treated flowing in the vicinity of the ultraviolet lamp.
    • 要解决的问题:为了提供一种能够从紫外线灯发出的全部紫外线照射被处理水的液体处理装置既不太多也不太少,以便用紫外线充分处理水分,即使是种类或 水量不同。解决方案:液体处理装置包括通过待处理液体的内部流过的水过滤鼓,并且待处理液体通过其流过的外管道连接到其上, 待处理液体的流路。 紫外线照射单元具有紫外线灯,其用紫外线照射待处理液体,设置在送水鼓中,在外管与紫外线照射单元之间的流路中设置整流构件, 对在紫外灯附近流动的待处理液体进行整流。
    • 2. 发明专利
    • Ultraviolet irradiation apparatus
    • 超紫外线辐射装置
    • JP2013059742A
    • 2013-04-04
    • JP2011200836
    • 2011-09-14
    • Toshiba Corp株式会社東芝
    • ABE NORIMITSUIDE KENJIKOBAYASHI SHINJIFUJITA KOJISHIROTA AKIHIKOTAKEUCHI KENJI
    • C02F1/32
    • C02F1/325C02F2201/004C02F2201/3227
    • PROBLEM TO BE SOLVED: To provide an ultraviolet irradiation apparatus which can adjust the ultraviolet irradiation quantity in accordance with the number of apparatuses to be connected and can be set up even in an existing facility or a narrow place.SOLUTION: The ultraviolet irradiation apparatus of embodiments includes: a water passage barrel, an ultraviolet irradiation member and a pair of flange parts. The water passage barrel is formed in a cylindrical shape, and has a pair of opening parts through which treatment target water passes. The ultraviolet irradiation member is provided one or more inside the water passage barrel toward a second direction crossing a first direction from one opening part to another opening part, and configured to emit ultraviolet rays to the treatment target water passing in the first direction. The pair of flange parts are formed protruding from peripheral edges of the pair of openings of the water passage barrel outward of the openings, respectively, and functioning as joints. When a plurality of the ultraviolet irradiation members are provided, the ultraviolet irradiation members are provided on the plane including the second direction.
    • 要解决的问题:提供一种可以根据要连接的设备的数量调节紫外线照射量并且即使在现有设施或狭窄的地方也可以设置的紫外线照射设备。 解决方案:实施方案的紫外线照射装置包括:水通道筒,紫外线照射构件和一对凸缘部。 水通道筒形成为圆筒状,具有一对开口部,处理对象水通过该开口部。 所述紫外线照射部件在与所述第一方向相交的第二方向上,在所述水通过筒体的内部设置有一个以上的一个或多个从一个开口部到另一个开口部,并且对所述第一方向的所述处理对象水进行紫外线照射。 所述一对凸缘部分分别从所述开口的外侧的所述水通道筒的所述一对开口的周缘部突出,并且作为关节起作用。 当设置多个紫外线照射部件时,紫外线照射部件设置在包括第二方向的平面上。 版权所有(C)2013,JPO&INPIT
    • 3. 发明专利
    • Ultraviolet irradiation device
    • 超紫外线辐射装置
    • JP2011056387A
    • 2011-03-24
    • JP2009208270
    • 2009-09-09
    • Toshiba Corp株式会社東芝
    • OGAWA SATOSHIMURAYAMA SEIICHISHIROTA AKIHIKO
    • C02F1/32
    • PROBLEM TO BE SOLVED: To provide an ultraviolet irradiation device which can easily detect when a lamp sleeve is damaged.
      SOLUTION: An ultraviolet irradiation device is used which includes ultraviolet lamps 7a-7f for irradiating water to be treated 2 flowing through a passage in a lamp housing 4 with ultraviolet rays, lamp sleeves 6a-6f provided in a region contacting with the water to be treated 2 so as to cover the ultraviolet lamps 7a-7f respectively, flange covers 20a, 20b inserted and connected to both ends of the lamp sleeves 6a-6f respectively, and a damage detection sensor for detecting the water to be treated 2 when the lamp sleeves 6a-6f are damaged and the water to be treated 2 flows into the flange covers 20a, 20b through insides of the lamp sleeves 6a-6f.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种紫外线照射装置,其可以容易地检测灯套是否损坏。 解决方案:使用紫外线照射装置,其包括紫外线灯7a-7f,其用于照射经过灯壳体4中的通道的经处理的水2,其具有紫外线,灯套6a-6f设置在与 待处理水2,分别覆盖紫外线灯7a-7f,分别插入并连接到灯套6a-6f的两端的凸缘盖20a,20b以及用于检测被处理水2的损坏检测传感器 当灯套6a-6f损坏并且被处理水2通过灯套6a-6f的内部流入凸缘盖20a,20b时。 版权所有(C)2011,JPO&INPIT
    • 4. 发明专利
    • Inspection device for ultraviolet irradiation device
    • ULTRAVIOLET IRRADIATION DEVICE检测装置
    • JP2011056364A
    • 2011-03-24
    • JP2009207244
    • 2009-09-08
    • Toshiba Corp株式会社東芝
    • OGAWA SATOSHISHIROTA AKIHIKO
    • C02F1/32
    • PROBLEM TO BE SOLVED: To carry out an inspection of a cleaning mechanism without removing a cylindrical container from piping.
      SOLUTION: An inspection device, inspecting an ultraviolet irradiation device which includes a cylindrical container 21 for receiving inflow of a fluid to be treated, a cylindrical body 24 provided by being connected to the cylindrical container 21 so as to intersect the cylindrical container 21 and closed by blind flanges at both ends, an ultraviolet lamp 28 for irradiating the fluid to be treated flowing through the inside of the cylindrical container 21 with ultraviolet rays, an optically transparent lamp sleeve 29 for housing the ultraviolet lamp 28, the cleaning mechanism 30 for cleaning the lamp sleeve 29, and a motor 33 for driving the cleaning mechanism 30, includes a support member 35 for supporting one of the blind flanges, a rail 37 for pulling out the support member 35, and a fixing screw 36 for fixing the support member 35 to the blind flange.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:在不从管道中取出圆筒形容器的情况下进行清洁机构的检查。

      解决方案:一种检查装置,检查包括用于接收被处理流体的流入的圆筒形容器21的紫外线照射装置,通过与筒状容器21连接而与圆筒形容器相交的圆筒体24 21并且由两端的盲凸缘封闭,用于用紫外线照射流过筒状容器21内部的待处理流体的紫外线灯28,用于容纳紫外线灯28的光透明灯套29,清洁机构 30用于清洁灯套29和用于驱动清洁机构30的马达33包括用于支撑一个盲凸缘的支撑构件35,用于拉出支撑构件35的轨道37和用于固定的固定螺钉36 支撑构件35到盲法兰。 版权所有(C)2011,JPO&INPIT

    • 5. 发明专利
    • Ultraviolet disinfection device
    • ULTRAVIOLET消毒装置
    • JP2009220042A
    • 2009-10-01
    • JP2008068298
    • 2008-03-17
    • Toshiba Corp株式会社東芝
    • MURAYAMA SEIICHIABE NORIMITSUIDE KENJIMORIKAWA AKIRASHIROTA AKIHIKOUENO OSAMUTAMAKI SHOJIROSOMA TAKAHIRO
    • C02F1/32
    • PROBLEM TO BE SOLVED: To provide an ultraviolet disinfection device for uniformly irradiating water to be treated flowing through a treatment tank with ultraviolet radiation.
      SOLUTION: The ultraviolet disinfection device includes an inflow port 41 and an outflow port 51, at least partially cylindrical treatment tanks 2 and 2A, rectification mechanisms 8 and 8A for guiding the water to be treated so that the flow of the introduced water to be treated forms swirling flow in the treatment tank, a singular or a plurality of ultraviolet ray emission sources 6 the whole of which enters the inside of the treatment tank so that its end part may be positioned inside the treatment tank closer than the end part of the rectification mechanism to irradiate the water to be treated flowing from the inflow port into the treatment tank with ultraviolet radiation, and a substantially flat insertion plane 2a provided on the end face in an axial direction of the treatment tank and inserting the ultraviolet ray emission source in the treatment tank.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种紫外线消毒装置,其用紫外线照射均匀地照射流过处理槽的被处理水。 解决方案:紫外消毒装置包括流入口41和流出口51,至少部分圆筒形的处理罐2和2A,用于引导被处理水的精馏机构8和8A,使得引入的水的流动 待处理的形式在处理槽中形成旋流,单个或多个紫外线发射源6,其全部进入处理槽的内部,使得其端部可位于处理槽内比端部更靠近 的整流机构,用于将从流入口流入的被处理水照射到紫外线的处理槽中,以及设置在处理槽的轴向端面上的大致平坦的插入面2a,并插入紫外线发射 来源于处理槽。 版权所有(C)2010,JPO&INPIT
    • 7. 发明专利
    • Liquid treatment system, control method and control program
    • 液体处理系统,控制方法和控制程序
    • JP2013192985A
    • 2013-09-30
    • JP2012059745
    • 2012-03-16
    • Toshiba Corp株式会社東芝
    • ABE NORIMITSUIDE KENJIKOBAYASHI SHINJISHIROTA AKIHIKOTAKEUCHI KENJI
    • B01J19/12C02F1/32
    • C02F1/008B01J19/12C02F1/325C02F1/685C02F1/76C02F2201/3227C02F2201/326C02F2209/006C02F2209/40C02F2303/04
    • PROBLEM TO BE SOLVED: To enhance an irradiation efficiency of an ultraviolet ray emitted from an ultraviolet ray lamp, and to reduce practically effectively an operation cost.SOLUTION: In this liquid treatment system of embodiment liquid treatment systems are constituted of a plurality of steps comprising the fist step to the n-th (n: 2 or more of natural number) step, when conducting treatment for the plurality of liquid treatment systems, and a liquid treatment is carried out while putting together prestage liquid treatment systems to reduce the number of systems. An ultraviolet irradiation unit is provided in every liquid treatment system constituting each step. An adjusting means adjusts an output of the ultraviolet irradiation unit provided in a specified step so as to bring the liquid after treatment in the liquid treatment system of the final step into a desired liquid treatment state, by fixing respectively outputs of the ultraviolet irradiation units provided in the steps other than the prescribed specified step, and by adjusting the output of the ultraviolet irradiation unit provided in the specified step.
    • 要解决的问题:提高从紫外线灯发射的紫外线的照射效率,并且实际上有效地降低操作成本。解决方案:在本实施例的液体处理系统中,液体处理系统由多个步骤构成,包括 在进行多个液体处理系统的处理的第n步(n = 2以上的自然数)步骤的第一步骤,并且进行液体处理,同时将预处理液体处理系统放在一起以减少 系统。 在构成每个步骤的每个液体处理系统中设置紫外线照射单元。 调节装置调节在特定步骤中提供的紫外线照射单元的输出,以使处理后的液体在最终步骤的液体处理系统中达到期望的液体处理状态,分别固定所提供的紫外线照射单元的输出 在规定的规定步骤之外的步骤中,并且通过调节在特定步骤中提供的紫外线照射单元的输出。
    • 8. 发明专利
    • Monitoring and controlling system of ultraviolet irradiation apparatus
    • 超紫外线辐照装置的监测与控制系统
    • JP2012192381A
    • 2012-10-11
    • JP2011059931
    • 2011-03-17
    • Toshiba Corp株式会社東芝
    • ABE NORIMITSUKOBAYASHI SHINJIIDE KENJIYOSHIZAWA NAOTOSHIROTA AKIHIKOSOMA TAKAHIRO
    • C02F1/32
    • C02F1/325C02F1/008C02F2201/322C02F2201/324C02F2201/326C02F2209/008C02F2209/40
    • PROBLEM TO BE SOLVED: To provide a monitoring and controlling system of an ultraviolet irradiation apparatus with which the reliability of the ultraviolet irradiation apparatus can be improved and safer water can be supplied.SOLUTION: The monitoring and controlling system includes: the ultraviolet irradiation apparatus configured to discharge inflowed water to be treated after ultraviolet irradiation; a flowmeter configured to measure a flow amount of the water to be treated on an inlet side or outlet side of the ultraviolet irradiation apparatus; and an ultraviolet-dose monitoring and controlling apparatus configured to monitor an ultraviolet dose of the ultraviolet irradiation apparatus and to control outputs of ultraviolet lamps. The ultraviolet irradiation apparatus includes: a first measurement head configured to measure an ultraviolet intensity of one ultraviolet lamp among the plurality of ultraviolet lamps; and a plurality of second measurement heads configured to respectively measure ultraviolet intensities of the plurality of the ultraviolet lamps. A distance between the ultraviolet lamp and the first measurement head is determined to form a predetermined relationship between a reduction equivalent ultraviolet dose and a ratio of the ultraviolet intensity measured by the first measurement head to the ultraviolet intensity measured by the first measurement head when an output control value of the first ultraviolet lamp is 100%.
    • 要解决的问题:提供一种能够提高紫外线照射装置的可靠性并且可以提供更安全的水的紫外线照射装置的监视和控制系统。 所述监视和控制系统包括:所述紫外线照射装置被配置为在紫外线照射之后排出待处理的水; 流量计,被配置为测量所述紫外线照射装置的入口侧或出口侧的被处理水的流量; 以及紫外线剂量监视和控制装置,其被配置为监测紫外线照射装置的紫外线剂量并控制紫外线灯的输出。 紫外线照射装置包括:第一测量头,被配置为测量所述多个紫外线灯中的一个紫外线灯的紫外线强度; 以及多个第二测量头,其被配置为分别测量所述多个所述紫外线灯的紫外线强度。 紫外线灯和第一测量头之间的距离被确定为在一个输出端上产生一个减小的等效紫外线剂量与由第一测量头测得的紫外线强度与由第一测量头测得的紫外线强度之比的预定关系 第一台紫外灯的控制值为100%。 版权所有(C)2013,JPO&INPIT
    • 9. 发明专利
    • Ultraviolet irradiation device
    • 超紫外线辐射装置
    • JP2011131138A
    • 2011-07-07
    • JP2009291296
    • 2009-12-22
    • Toshiba Corp株式会社東芝
    • KOBAYASHI SHINJIABE NORIMITSUSOMA TAKAHIROSHIROTA AKIHIKO
    • C02F1/32
    • C02F1/325C02F1/283C02F1/52C02F1/76C02F2201/3227C02F2201/324C02F2201/326C02F2209/44
    • PROBLEM TO BE SOLVED: To keep sterilization, disinfection, and inactivation capabilities even if a period of a maintenance cycle or a life period of an ultraviolet lamp is reached or the ultraviolet output from the ultraviolet lamp is decreased.
      SOLUTION: An ultraviolet irradiation device which sterilizes, disinfects, and inactivates raw water, such as city water or underground water, includes a reactor 1 having a water supply inlet 1a for inflow of the raw water, ultraviolet lamps 8a-8d for radiating ultraviolet rays to the inflow raw water, and a water discharge outlet 1b for discharging the raw water irradiated with the ultraviolet rays, an ultraviolet sensor 3 for measuring the amount of the ultraviolet rays irradiated from the ultraviolet lamps 8a-8d, and a controller for controlling lighting and non-lighting of the ultraviolet lamps 8a-8d.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:即使达到紫外线灯的维护周期或寿命周期或紫外线灯的紫外线输出减少,也能够保持消毒,消毒和灭活能力。 解决方案:对城市用水或地下水等原水进行灭菌,消毒,灭活的紫外线照射装置,具备:反应器1,其具有用于流入原水的供水口1a,用于 向流入的原水辐射紫外线,以及用于排出被紫外线照射的原水的排水口1b,用于测量从紫外线灯8a-8d照射的紫外线的量的紫外线传感器3和控制器 用于控制紫外线灯8a-8d的照明和非点亮。 版权所有(C)2011,JPO&INPIT
    • 10. 发明专利
    • Water quality monitoring apparatus
    • 水质监测装置
    • JP2010133783A
    • 2010-06-17
    • JP2008308630
    • 2008-12-03
    • Toshiba Corp株式会社東芝
    • HARAGUCHI SATOSHITAKEMURA MINORUKIN TAKEISHIMORIKAWA AKIRAUENO OSAMUSHIROTA AKIHIKOHAYAMI TOKUSUKE
    • G01N27/327G01N21/77G01N21/78G01N33/18
    • Y02A20/206
    • PROBLEM TO BE SOLVED: To detect a specific material mixed with raw water, and to identify the material and a concentration of the material. SOLUTION: A water quality monitoring apparatus comprises: a measurement tank 11 into which sample water is transmitted; an oxygen electrode 13 disposed in the measurement tank, and measuring the quantity of oxygen transmitted through a microbial membrane 12 for holding microbes; a biosensor 10 for detecting the presence of the specific material mixed with the sample water based on the oxygen quantity measured by the oxygen electrode; reaction vessels 21a, 21b into each of which the sample water is transmitted; a chemical injecting means 22 for injecting a chemical reacting to the specific material into the sample water. The material contained in the sample water and the concentration of the material are identified in response to a change in the sample water after the chemical is added. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:检测与原水混合的特定材料,并识别材料和材料的浓度。 解决方案:水质监测装置包括:测量罐11,样品水被传送到其中; 设置在测量罐中的氧电极13,并测量透过微生物膜12以保持微生物的氧量; 生物传感器10,用于根据由氧电极测得的氧量检测与样品水混合的特定材料的存在; 反应容器21a,21b,其中每个都传送样品水; 用于将与特定材料反应的化学物质注入到样品水中的化学注入装置22。 包含在样品水中的材料和材料的浓度响应于化学品添加后样品水的变化而被识别。 版权所有(C)2010,JPO&INPIT