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公开(公告)号:US5518627A
公开(公告)日:1996-05-21
申请号:US396795
申请日:1995-03-01
申请人: Masao Tomoi , Teruo Onozuka , Manabu Shindo , Hideaki Kiniwa , Hirohisa Kubota , Shintaro Sawada
发明人: Masao Tomoi , Teruo Onozuka , Manabu Shindo , Hideaki Kiniwa , Hirohisa Kubota , Shintaro Sawada
CPC分类号: B01J41/043 , Y10S210/90 , Y10S210/917
摘要: A method for demineralizing water or an aqueous solution, which comprises contacting the water or the aqueous solution to be treated to a strongly basic anion exchanger made of a crosslinked polymer having a constituting unit of the following formula (I): ##STR1## wherein A is a C.sub.1-2 linear alkylene group, B is a C.sub.4-8 linear alkylene group, each of R1, R2 and R3 which may be the same or different, is a C.sub.1-4 alkyl group or a C.sub.2-4 alkanol group, X is a counter ion coordinated on the ammonium group, and the benzene ring D may have an alkyl group or a halogen atom as a substituent.
摘要翻译: 一种使水或水溶液软化矿物的方法,其包括将待处理的水或溶液与由具有下式(I)的构成单元的交联聚合物制成的强碱性阴离子交换剂接触: )其中A为C1-2直链亚烷基,B为C4-8直链亚烷基,R 1,R 2和R 3可相同或不同,为C 1-4烷基或C 2-4链烷醇 基团,X是在铵基上配位的抗衡离子,苯环D可以具有烷基或卤素原子作为取代基。
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2.
公开(公告)号:US5253989A
公开(公告)日:1993-10-19
申请号:US900720
申请日:1992-06-18
CPC分类号: F01C1/0246 , F01C17/06
摘要: A scroll fluid apparatus has a revolving scroll and an auxiliary crank as a rotation prevention mechanism. The revolving scroll has a two-layer structure including an auxiliary member having an annular plate portion, and an end plate member having an end plate, the two members being superposed axially. A positioning mechanism is provided between the auxiliary member and the end plate member to position and unite them in a circumferential direction. When the end plate member expands radially due to a rise in temperature, the end plate is displaced radially while being in sliding contact with the annular plate portion. The end plate is fastened to the annular plate portion through a bolt portion at the center thereof, where the amount of radial displacement due to the thermal expansion is the smallest. Accordingly the annular plate portion is not displaced radially and thus, no radial load acts on the auxiliary crank.
摘要翻译: 涡旋流体设备具有作为旋转防止机构的回转涡卷和辅助曲柄。 回转涡卷具有包括具有环形板部分的辅助构件和具有端板的端板构件的两层结构,两个构件轴向重叠。 在辅助构件和端板构件之间设置有定位机构,以在圆周方向上定位和组合它们。 当端板构件由于温度升高而径向膨胀时,端板在与环形板部分滑动接触的同时径向偏移。 端板通过其中心处的螺栓部分紧固到环形板部分,其中由于热膨胀而产生的径向位移量最小。 因此,环形板部分不是径向位移,因此没有径向负载作用在辅助曲柄上。
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公开(公告)号:US07722331B2
公开(公告)日:2010-05-25
申请号:US11527537
申请日:2006-09-27
CPC分类号: F04B41/06 , F04B41/02 , F04B49/022 , F04B2205/05
摘要: An air-compressing apparatus has four compressors individually supplying compressed air to a tank having a pressure sensor. The pressure sensor is connected to control circuits of the compressors. The control circuits compute times needed for the tank pressure to reach minimum and maximum pressures, respectively, of the tank by using the detected tank pressure and also using a tank pressure change value. The computed time values correspond to the consumption of compressed air. Thus, the control circuits can control the number of compressors to be operated according to the consumption of compressed air.
摘要翻译: 空气压缩装置具有四个压缩机,其将压缩空气分别供给具有压力传感器的罐。 压力传感器连接到压缩机的控制电路。 控制电路通过使用检测到的罐压力以及使用罐压力变化值来计算罐压力分别达到罐的最小和最大压力所需的时间。 所计算的时间值对应于压缩空气的消耗。 因此,控制电路可以根据压缩空气的消耗来控制要运行的压缩机的数量。
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公开(公告)号:US20070077151A1
公开(公告)日:2007-04-05
申请号:US11527537
申请日:2006-09-27
IPC分类号: F04B41/06
CPC分类号: F04B41/06 , F04B41/02 , F04B49/022 , F04B2205/05
摘要: An air-compressing apparatus has four compressors individually supplying compressed air to a tank having a pressure sensor. The pressure sensor is connected to control circuits of the compressors. The control circuits compute times needed for the tank pressure to reach minimum and maximum pressures, respectively, of the tank by using the detected tank pressure and also using a tank pressure change value. The computed time values correspond to the consumption of compressed air. Thus, the control circuits can control the number of compressors to be operated according to the consumption of compressed air.
摘要翻译: 空气压缩装置具有四个压缩机,其将压缩空气分别供给具有压力传感器的罐。 压力传感器连接到压缩机的控制电路。 控制电路通过使用检测到的罐压力以及使用罐压力变化值来计算罐压力分别达到罐的最小和最大压力所需的时间。 所计算的时间值对应于压缩空气的消耗。 因此,控制电路可以根据压缩空气的消耗来控制要运行的压缩机的数量。
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