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    • 4. 发明专利
    • METHOD FOR SEPARATION OR THICKENING OF SOLID IN SOLID- LIQUID MIXED PHASE FLUID
    • JP2000005641A
    • 2000-01-11
    • JP17507398
    • 1998-06-22
    • HORII KYOYUKINIPPON KOKAN KK
    • HORII KIYOYUKIKODA KAZUOOGOSE HIDEMASA
    • B04C3/00
    • PROBLEM TO BE SOLVED: To separate or thicken efficiently various kinds of solids having different specific gravities by ultilizing characteristics of a method by a Coanda spiral flow by a method wherein a swirl flow of a solid-liquid mixed phase fluid is generated to an upper stream side in a pipe line wherein the solid-liquid mixed phase fluid is conveyed, and the fluid near an axial center of the generated swirl flow is extracted. SOLUTION: A solid-liquid mixed phase fluid is firstly allowed to flow in a tangential direction of an influent part large diameter cylinder 2 from a tangential influent pipe 1 to generate a swirl fluid in the influent pipe large diameter cylinder 2. Then, the solid-liquid mixed phase fluid is allowed to pass through a diameter-gradually-diminishing pipe 3 to strengthen the swirl flow, and the strong swirl flow of a large free vortex component is generated in a swirl flow pipe line 4. In the spiral flow pipe line 4 at this time, a solid of a less specific gravity than that of the liquid and the solid of a large specific gravity which comprise the solid-liquid mixed phase fluid, are respectively collected in an axial central part of the swirl flow to form the thickened solid-liquid mixed phase fluid. Then, the thickened solid-liquid mixed phase fluid is extracted from a downstream side extracting pipe 5 arranged concentrically in the swirl flow pipe line 4, and the solid is taken out by separation from the swirl flow pipe line 4.
    • 6. 发明专利
    • FREEZING CONSTRUCTION METHOD
    • JPH11209990A
    • 1999-08-03
    • JP903198
    • 1998-01-20
    • HORII KYOYUKI
    • HORII KIYOYUKI
    • E02D19/14E02D3/115
    • PROBLEM TO BE SOLVED: To reduce freezing time by applying electric charge or a magnetic field to a part of a pipeline to flow a refrigerant. SOLUTION: Electric charge or a magnetic field is applied to freezing pipes 1, 2. Therefore, since a metallic ion and an inorganic ion can be gathered to the periphery of an electrode or a magnetic pole on the outer periphery of the freezing pipes 1, 2, when freezing starts from soil 3 in the vicinity of the freezing pipes, moisture in the soil 3 freezes, and at the same time, the metallic ion and the inorganic ion can also be frozen, so that freezing efficiency is improved by preventing the deviatory existence in the soil. A Coanda spiral flow is desirably used to flow in and discharge a refrigerant. The refrigerant can be easily recovered by turning air and a waterdrop gathered in a bent pipe and a U-shape pipe to the shaft center when the Coanda spiral flow is flowed to a pipeline having, for example, the U-shaped pipe or the bent pipe. Therefore, besides freezing time can be reduced, the refrigerant in a freezing outer pipe, a freezing inner pipe and a U-shaped pipe can be easily discharged.
    • 9. 发明专利
    • SURFACE COATING METHOD FOR POWDER
    • JPH105689A
    • 1998-01-13
    • JP16172796
    • 1996-06-21
    • HORII KYOYUKIFUKUVI CHEM IND CO
    • HORII KIYOYUKISAWAZAKI HIROAKI
    • B05D7/00B01J2/00
    • PROBLEM TO BE SOLVED: To carry out continuous coating of a powder material by supplying the powder material to the inside of a nozzle by suction force of negative pressure of a spiral nozzle in a fore-stage, dispersing and orienting the powder material by the generated spiral current, and coating the surface of the powder material with a coating agent sucked by the negative pressure suction force of a spiral nozzle in the rear-stage. SOLUTION: Spiral nozzles 1, 2 in the fore-stage and in the rear-stage have supply aperture parts 11, 21, jetting outlet parts 12, 22, and circular slit parts 13, 23 to generate spiral current by introduction of a compressed fluid, respectively and a suction aperture part 31 is opened in a slit part 23 of the nozzle 2 in the rear-stage. In the case that surface coating treatment is carried out for, for example, potassium titanate fibers, the fibers are supplied through the supply aperture part 11 and dispersed in the spiral current generated by the nozzle 1 in the fore-stage, and oriented and controlled as to make the longer axis be along the spiral current proceeding direction of the tubular axis. Then, a silane coupling agent solution is sucked through a suction rear side 31 by the negative pressure generated by the spiral current generated by the nozzle 2 in the rear-stage and sprayed to the inside of the nozzle to carry out the coating treatment.