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    • 1. 发明专利
    • METHOD AND DEVICE FOR SEATING SENSOR RACK ON SEA BOTTOM
    • JPS6468614A
    • 1989-03-14
    • JP22529487
    • 1987-09-10
    • TOKYO GAS CO LTDTOA HARBOR WORKS CO LTDNEC CORP
    • YAMAGUCHI KENICHISUGIMOTO KUNIAKINUMAJIRI YOSHIHARUYAMAUCHI FUMIO
    • G01D21/00G01C13/00
    • PURPOSE:To accurately measure the position of a submarine buried body by lowering the sensor rack provided with a sensor on the bottom of the sea along a guide rope, adjusting the position of the rack by moving a davit over confirmation through a radio wave position measuring instrument antenna provided to a davit coupling bar, and then seating it on the bottom of the sea. CONSTITUTION:The guide rope 13 of an anchor block 22 is lowered on the bottom 1 of the sea through the operation of the winch 9 of the block 22 of a measurement ship 11 and after front and rear blocks are seated on the bottom 1 of the sea, the blocks are seated on the bottom 1 of the sea at the same time at intervals of 0.5m to maintain a guide rope interval L. Then the sensor rack 3 is lowered on the bottom 1 of the sea by a rope 14 along the guide rope 13 through the operation of the winch 8 and the ropes 13 and 14 are loosened. Further, a sensor cable 15 connected to a magnetic sensor 4 is elevated and lowered by a cable winding device 16. The position of a submarine tube 2 is measured after the sensor rack 3 is set, and if there is a deviation between the center part 3A of the sensor rack 3 and the center line C of the submarine tube 2, the center part 3A is moved until it meets the center line C and a measurement is taken again.
    • 2. 发明专利
    • POSITION DETECTING METHOD FOR BURIED CONDUCTOR
    • JPS62297776A
    • 1987-12-24
    • JP14174086
    • 1986-06-17
    • NEC CORPTOKYO GAS CO LTD
    • MIURA TOKUNORISAITO KIMIMASAWASA YASUHIROYAMAGUCHI KENICHI
    • G01B7/00G01R33/02G01V3/08
    • PURPOSE:To improve the detection accuracy of a burying position and to evaluate the reliability of the detection result by obtaining plural data on a line of intersection of two planes crossing a magnetic field at right angles and calculating their mean value with respect to all combinations of two points on both sides of the rack center of magnetic sensors fixed both ends of a rack. CONSTITUTION:Plural magnetic sensors which detect a magnetic field direction are fixed on substantially the same plane nearby both ends of the long rack 3, which this rack 3 is installed on the ground surface closely right above a buried conductor for a method which supplies a current to the buried conductor 1 to find its position. Then, the magnetic field direction is measured at plural positions on the ground surface and data on lines of intersection of two planes crossing the magnetic field at right angles are found with respect to all combinations of two points on both sides of the rack center of the magnetic sensors fixed nearby both ends of the rack. Then their mean value is calculated to obtain the measurement position of the burying position with high reliability, and variance in the measurement result (e.g. standard deviation) is found to evaluate the reliability.
    • 3. 发明专利
    • POSITION DETECTING METHOD FOR BURIED CONDUCTOR
    • JPS62297777A
    • 1987-12-24
    • JP14174186
    • 1986-06-17
    • NEC CORPTOKYO GAS CO LTD
    • MIURA TOKUNORISAITO KIMIMASAWASA YASUHIROYAMAGUCHI KENICHI
    • G01V3/10
    • PURPOSE:To detect the position of a buried conductor in a short time by an easy procedure by measuring the intensity and direction of a magnetic field at >=3 points where relative positions on a plane are clear, and calculating the burying position from the optimum value of a constant of a theoretical expression of the magnetic field intensity calculated by using said measured values. CONSTITUTION:A current is supplied to the buried conductor 1 and a magnetic field produced by the current is measured by using a three-axial fluxmeter. Then, the two axes of the fluxmeter are placed on an optional plane and the fluxmeter is moved in the direction of an (x)-axia direction by (n) times (n>=3) by every specific distance to measure three axial components of a magnetic field at respective points Xn, thereby obtaining (n) measurement results (Xn HnX, Hny, Hnz). The intensity Hn and direction theta of the magnetic field at each measurement point Xn are found from a prescribed expression by using the measurement results. Then, those measured values are used to calculate the optimum value of the constant of a theoretical expression of the magnetic field intensity and the burying position of the buried conductor 1 is calculated from the prescribed expression by using the constant value.
    • 5. 发明专利
    • AUTOMATIC CONTROL DEVICE FOR ELECTROLYTIC CORROSION PREVENTIVE CURRENT RECTIFIER
    • JPS6468485A
    • 1989-03-14
    • JP22519187
    • 1987-09-10
    • TOKYO GAS CO LTDNAKAGAWA CORROSION PROTECT
    • KANEDA OSAMUTOYODA SHIGERUYAMAGUCHI KENICHIFUKUOKA TAKASHI
    • H02M7/00C23F13/00G05F1/10
    • PURPOSE:To enable control even in a place where potential fluctuates largely with the titled device for controlling the potential of an object to be protected by using a high speed response type device having specific constitution in place of PID control. CONSTITUTION:Protective current is supplied from an energizing electrode 2 to the object (3) to be protected and the potential of the pipe 3 is measured by a measuring means 5 with a potential reference electrode 4 as a reference. The basic controlled variable is instructed from a basic controlled variable setting means 6 to a current rectifier control means 7 in accordance with the result of the measurement, then said means instructs the quantity of energization to the current rectifier 1 and confirms the quantity. The change in the potential of the pipe 3 is detected by the means 5 and the automatic control operation is carried out by repeating the operation similar to the above-mentioned operation. The means 7 receives the pulse energization instruction from a pulse energization instruction deciding means 8 and controls the current rectifier 1 so as to make the pulse energization between the electrode 2 and the pipe 3. The means 8 takes the potential response value of the pipe 3 and the electrode 4 synchronized therewith into said means via the means 5 and calculates the relation between the energization value and potential change quantity in accordance with the potential response value. The means 6 takes in the result of the learning, sets the same and instructs the basic controlled variable in accordance with the result of said learning to the means 7.