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
    • 1. 发明申请
    • SENSING A CHARACTERISTIC OF AQUEOUS SOLUTION
    • 感觉水溶液的特点
    • WO2014140993A1
    • 2014-09-18
    • PCT/IB2014/059410
    • 2014-03-04
    • KONINKLIJKE PHILIPS N.V.
    • JIN, JianyuWANG, GuangweiYANG, Miaoxin
    • G01N27/12G01N33/18
    • G01N27/125G01N33/1853
    • This disclosure uses an ion exchange resin (10) as a captor for the ions in the aqueous solution. Then the characteristic of the solution relating to the ions can be represented by the electrical conductivity of the resin, due to that the ions captured by the resin from the solution would influence the electrical conductivity of the resin. A sensor comprises: an ion exchange resin (10) adapted to be placed into said solution to capture at least part of said ions; a measuring module (12) adapted to measure an electrical conductivity of said resin; and an analyzer (14) configured to determine said characteristic of said solution according to the measured electrical conductivity of said resin.
    • 本公开使用离子交换树脂(10)作为水溶液中的离子的捕获剂。 那么与离子有关的溶液的特性可以由树脂的导电性表示,因为树脂从溶液中捕获的离子将影响树脂的导电性。 传感器包括:适于放置在所述溶液中以捕获至少部分所述离子的离子交换树脂(10) 适于测量所述树脂的电导率的测量模块(12); 以及分析器(14),被配置为根据测量的所述树脂的电导率确定所述溶液的所述特性。
    • 2. 发明申请
    • LIQUID TESTER
    • 液体检测仪
    • WO2009074992A2
    • 2009-06-18
    • PCT/IL2008/001609
    • 2008-12-11
    • MAROM ALBECK, Orit
    • MAROM ALBECK, Orit
    • G01N21/78
    • G01N31/22G01N33/1813G01N33/182G01N33/1853
    • A liquid testing device for determining the value of at least one property of a liquid. The liquid testing device includes a planar base and at least on test section, located on the planar base, with a reference color section located adjacent to the test section, which exhibits a color according to the value, as a result of reaction of a reagent with the liquid. The reference color section includes a plurality of different reference colors arranged for easy visual color comparison with the test result. The reference color section is placed adjacent to and in contact with the test sectino, with the test section having sufficient length so that it substantially encompasses the entire reference color section with its plurality of different reference colors. Thus, when the test section exhibits a reaction color, the visual comparison is simplified since the reference color which matches the reaction color becomes substantially visually merged and self-aligned therewith.
    • 一种用于确定液体的至少一种性质的值的液体测试装置。 液体检测装置包括位于平面基底上的平面基部和至少在测试部分上,具有与测试部分相邻的参考颜色部分,其由于试剂的反应而显示出根据该值的颜色 与液体。 参考颜色部分包括多个不同的参考颜色,其布置成便于与测试结果的视觉颜色比较。 参考颜色部分放置在测试部分附近并与测试部分接触,测试部分具有足够的长度,使得其基本上包含整个参考颜色部分及其多个不同的参考颜色。 因此,当测试部分显示反应颜色时,视觉比较被简化,因为与反应颜色匹配的参考颜色基本上可视地融合并自对准。
    • 6. 发明申请
    • METHOD FOR OPERATING A WATER SOFTENING ION EXCHANGER SYSTEM WITH REGENERATIVE UNIT BY MEASURING IN SITU THE WATER HARDNESS BY MEANS OF AN ION-SELECTIVE SENSORY MECHANISM AND ARRANGEMENT FOR CARRYING OUT SUCH A METHOD
    • 一种用于操作水软化离子交换系统与再生机组的现场测量水余量大小为离子选择性传感器和布置具体实施这样的方法
    • WO0030750A3
    • 2000-08-10
    • PCT/EP9909079
    • 1999-11-24
    • OFS ONLINE FLUID SENSORIC GMBHSCHELLBACH WINFRIED
    • SCHELLBACH WINFRIED
    • B01J49/00C02F1/42G01N33/18
    • C02F1/42B01J49/85G01N33/1853
    • The invention relates to a method for operating a water softening-ion exchanger system with regenerative unit by measuring in situ the water hardness by means of an ion-selective sensory mechanism. According to the inventive method, a partial current of the process water which current has a minimized leak rate is branched off. Said branched-off partial current is guided to a sensory mechanism via a controlled valve unit. The control variables for the partial current are determined on the basis of a process signal which in turn is determined by a control unit for the ion exchanger. Said control variables are correlated with the valve units in such a manner that the partial current is adjusted simultaneously with the process water current. The ion-selective sensory mechanism continuously monitors the concentration ratios in the partial current. When defined threshold values are approached or exceeded, the regenerative process of the ion exchanger is initiated. Outside the tapping hours of process water the partial current is interrupted and the sensory mechanism is provided with a calibrating liquid by the valve unit for calibration and control.
    • 本发明涉及一种用于通过离子选择性传感器的装置中的残余水硬度的现场测量,通过操作与再生单元水软化离子交换系统的方法。 根据本发明的支化具有工艺用水的部分流最小化泄漏率制成,其中,所述部分流通过可控阀单元上的传感器。 此外,我们对的通过用于离子交换工厂过程信号的控制单元预定的基础上,子流设置控制参数,该控制变量被馈送到阀单元,使得部分流是同时调整的处理水流。 离子选择性传感器,用于连续监测在部分流浓度比,与被达到或超过的离子交换系统的再生过程的预定极限值进行。 在过程水的回收时间之外,分流将被中断并通过传感器校准液的阀单元进行校准和控制。
    • 7. 发明申请
    • METHOD FOR OPERATING A WATER SOFTENING ION EXCHANGER SYSTEM WITH REGENERATIVE UNIT BY MEASURING IN SITU THE WATER HARDNESS BY MEANS OF AN ION-SELECTIVE SENSORY MECHANISM AND ARRANGEMENT FOR CARRYING OUT SUCH A METHOD
    • 一种用于操作水软化离子交换系统与再生机组的现场测量水余量大小为离子选择性传感器和布置具体实施这样的方法
    • WO00030750A2
    • 2000-06-02
    • PCT/EP1999/009079
    • 1999-11-24
    • B01J49/00C02F1/42G01N33/18
    • C02F1/42B01J49/85G01N33/1853
    • The invention relates to a method for operating a water softening-ion exchanger system with regenerative unit by measuring in situ the water hardness by means of an ion-selective sensory mechanism. According to the inventive method, a partial current of the process water which current has a minimized leak rate is branched off. Said branched-off partial current is guided to a sensory mechanism via a controlled valve unit. The control variables for the partial current are determined on the basis of a process signal which in turn is determined by a control unit for the ion exchanger. Said control variables are correlated with the valve units in such a manner that the partial current is adjusted simultaneously with the process water current. The ion-selective sensory mechanism continuously monitors the concentration ratios in the partial current. When defined threshold values are approached or exceeded, the regenerative process of the ion exchanger is initiated. Outside the tapping hours of process water the partial current is interrupted and the sensory mechanism is provided with a calibrating liquid by the valve unit for calibration and control.
    • 本发明涉及一种用于通过离子选择性传感器的装置中的残余水硬度的现场测量,通过操作与再生单元水软化离子交换系统的方法。 根据本发明的支化具有工艺用水的部分流最小化泄漏率制成,其中,所述部分流通过可控阀单元上的传感器。 此外,我们对的通过用于离子交换工厂过程信号的控制单元预定的基础上,子流设置控制参数,该控制变量被馈送到阀单元,使得部分流是同时调整的处理水流。 离子选择性传感器,用于连续监测在部分流浓度比,与被达到或超过的离子交换系统的再生过程的预定极限值进行。 的工艺水的去除时间以外,部分流动被中断,并经由传感器校准用于校准和控制的阀单元供应。
    • 9. 发明申请
    • DRY REAGENT BASED WATER ANALYZER
    • 干试剂水分析仪
    • WO2015105722A1
    • 2015-07-16
    • PCT/US2014/073046
    • 2014-12-31
    • ECOLAB USA INC.
    • ZHENG, HuaJIN, NingXIA, FeiLIANG, LingYU, ChunboJIANG, LinHAN, Lingfeng
    • G01N21/25G01N33/20
    • G01N31/22G01N21/78G01N33/1853
    • The invention provides devices, methods, and compositions for dry chemical reagents to measure calcium, magnesium (total hardness), and other analytes in water using colorimetric devices. The measurement may be a one-step procedure without the need of dilution and multi-step preparation, so that it can be easily employed by untrained personnel. The chemical reagents may include dyes, buffer reagents, masking reagents, competing ligands, and other chemicals such as fillers. The chemical reagents may be grinded together as a homogenous fine powder, equally dispensed into small containers for each test or dried as film or solid using the means of air, low heat or vacuum. The composition may be easily dissolved into water samples and stable for long term storage. The methods may be able to distinguish between similar materials such as magnesium and calcium with the same one reagent or from other interfering species in water samples.
    • 本发明提供用于使用比色装置测量水中的钙,镁(总硬度)和其它分析物的干化学试剂的装置,方法和组合物。 测量可以是一步程序,而不需要稀释和多步骤准备,因此可以容易地由未经培训的人员使用。 化学试剂可以包括染料,缓冲剂,掩蔽试剂,竞争性配体以及其它化学品如填料。 化学试剂可以一起研磨成均匀的细粉末,均匀地分配到用于每个试验的小容器中,或者使用空气,低热或真空的方式作为膜或固体干燥。 组合物可以容易地溶解在水样中,并且可长期储存稳定。 这些方法可能能够用相同的一种试剂或水样中的其他干扰物质来区分类似的材料,例如镁和钙。