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    • 2. 发明专利
    • Moisture separating device
    • 湿度分离装置
    • JP2007085282A
    • 2007-04-05
    • JP2005277160
    • 2005-09-26
    • Hitachi Eng Co LtdHitachi Ltd日立エンジニアリング株式会社株式会社日立製作所
    • SATO HIROYUKIOTA HIROSHIHANDA KOTARO
    • F01D25/00B01D45/08
    • PROBLEM TO BE SOLVED: To suppress the abrasion or damage of an actuating part relating to the detection of a water level and the erroneous operation of a switch, in a moisture separating device used for a plant of a steam turbine.
      SOLUTION: In a moisture separating device, steam discharged from the steam turbine is taken into a first container to separate the moisture in the steam. A level detector detecting a water level of separated water accumulating on the bottom of the first container. The level detector has: a float 35 elevating according to a change in water level in the container 31 communicating with the first container with a detection valve 21; a magnet 39 disposed to be capable of elevating in a guide cylinder 41 according to the elevation of the float 35; and a reed switch 43 which detects a magnetic field changed depending on the elevation of the magnet and is attached to a position where the magnet is opposed to the magnet 39 while sandwiching the guide cylinder 41 therebetween through an impact absorbing member.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:在用于蒸汽轮机的设备的水分分离装置中,抑制与检测水位有关的致动部件的磨损或损坏以及开关的错误操作。 解决方案:在水分分离装置中,从汽轮机排出的蒸汽被吸入第一容器中以分离蒸汽中的水分。 水位检测器,检测积存在第一容器底部的分离水的水位。 液位检测器具有:浮体35,其根据与第一容器连通的容器31中的水位的变化而升高,具有检测阀21; 设置成能够根据浮子35的高度在引导筒41中升高的磁体39; 以及簧片开关43,其检测根据磁体的高度而变化的磁场,并且通过冲击吸收构件将导向气缸41夹在其间,并且附接到磁体与磁体39相对的位置。 版权所有(C)2007,JPO&INPIT
    • 4. 发明专利
    • PARALLEL PROGRAM GENERATION METHOD
    • JPH11120152A
    • 1999-04-30
    • JP28489697
    • 1997-10-17
    • HITACHI LTD
    • HIROOKA TAKASHIOTA HIROSHI
    • G06F15/16G06F9/45G06F15/163
    • PROBLEM TO BE SOLVED: To use a method for making a processing speed maximum by generating a parallel program to which the communication code of a pack communication method is inserted in the case a pack communication cost is minimum and generating the parallel program to which the communication code of a batch communication method is inserted in the case a batch communication cost is the smallest. SOLUTION: A communication cost detection part 7 detects the pack communication cost of the pack communication method for merging and communicating the non-adjacent communication data of communication data information 92 by utilizing packing and unpacking, detects the batch communication cost of the batch communication method for merging and communicating the non-adjacent communication data including the data held between them and outputs communication cost information 96. The size relation of the pack communication cost and the batch communication cost in the communication cost information 96 is compared in a communication method decision part 8, the communication code of the pack communication method is generated in the case the pack communication cost is small and the communication code of the batch communication method is generated in the case the batch communication cost is small.
    • 5. 发明专利
    • OPTIMUM PARALLEL PROGRAM GENERATING METHOD
    • JPH10228455A
    • 1998-08-25
    • JP3166897
    • 1997-02-17
    • HITACHI LTD
    • HIROOKA TAKASHIOTA HIROSHI
    • G06F15/16G06F9/45
    • PROBLEM TO BE SOLVED: To accelerate the processing speed of a parallel program by generating an optimum parallel program into which a code that decides date division information at the time of executing is inserted. SOLUTION: A data dividing part 6 contains a dynamic data division deciding part 7 which detects a dynamic variable that is related to the decision of data division from an intermediate word 91 and data division information 92, performs a dynamic data division analysis and outputs dynamic data division deciding information 96. It further contains a dynamic data division deciding code generating part 8 which inputs the information 96 and generates a dynamic data division deciding code. It detects a declaration measure of each data in a sequential executing source program 1 that is inputted in the part 6, the action range of a loop control variable and the dynamic information among reference patterns. A parallel program into which an execution time deciding code is inserted is generated by recording a part that dynamically decides in the information 92 and generating the execution time deciding code to the part that dynamically decides in the information 92.
    • 9. 发明专利
    • MANUFACTURE OF SEMICONDUCTOR DEVICE
    • JPH0794437A
    • 1995-04-07
    • JP23781693
    • 1993-09-24
    • HITACHI LTDHITACHI VLSI ENG
    • MIYAZAKI MASARUOTA HIROSHI
    • H01L21/265H01L21/338H01L29/812
    • PURPOSE:To reduce the fluctuation of the film thickness of active layers and carrier concentration distributions in the active layers by implanting ions into a crystal through the oxide film of the crystal produced when the crystal is left in an ozone atmosphere and heat-treating the crystal. CONSTITUTION:The surface of a semi-insulating substrate crystal 1 is irradiated with ultraviolet rays 100 emitted from a low-pressure mercury lamp in an ozone atmosphere (a). When the intensity of the ultraviolet rays 100 is 10mW/cm and the temperature of the atmosphere is room temperature, the oxide film 2 of the GaAs crystal reaches a thickness of about 15nm in two hours. The standard deviation of the thickness D of the oxide film becomes 0.7% when the crystal 1 is irradiated with the ultraviolet rays 100 while the crystal is rotated. Then an implanted layer 3 is formed on the surface of the crystal 1 by implanting Si ions into the surface of the crystal through the oxide film 2 (b). Then, after forming an SiO2, protective film 4 on the surface of the oxide film 2, an n-type active layer 3 is formed by performing cap annealing on the crystal 1 at 80O deg.C (c). Successively, the oxide film 2 and protective film 4 are removed with an HF solution and the active layer 3 is coated with a new SiO2, protective film 5.