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    • 11. 发明专利
    • METHOD FOR CONTROLLING SET CHANGING DURING TRAVELING IN ROLLING MILL
    • JPH07251212A
    • 1995-10-03
    • JP4617494
    • 1994-03-16
    • SUMITOMO METAL IND
    • WASHIKITA YOSHIROOI TOSHIYAKANEKO TORU
    • B21B13/14B21B15/00B21B37/00B21B37/26
    • PURPOSE:To reduce the generating region of defect of thickness and defect in shape which are generated on a preceding material to be rolled and the following material to be rolled at the time of changing setting during traveling are generated. CONSTITUTION:The common time about the setting change of the roll gap and roll speed is decided with a change timing arithmetic unit 14 based on work roll bending force, shift amount of intermediate roll and time required for changing these settings which are determined with a work roll bending force/intermediate roll shift amount arithmetic unit 12 and the roll gap, roll speed and time required for changing these settings which are determined with a roll gap/roll speed arithmetic unit 13. When the shift of the intermediate roll is the change to the positive side, the setting change starting time is decided so that the setting change completing time of the intermediate roll shift is made to coincide with the setting change completing time of the roll gap and roll speed and, when the shift of the intermediate roll is the change to the negative side, the setting change starting time is decided so that the setting change starting time is made to coincide with the setting change starting time of the roll gap and roll speed.
    • 18. 发明专利
    • BASE-ISOLATION EQUIPMENT
    • JPH11159190A
    • 1999-06-15
    • JP32598597
    • 1997-11-27
    • MITSUBISHI HEAVY IND LTD
    • ITO HIROMASAKANEKO TORU
    • E04H9/02F25D23/00
    • PROBLEM TO BE SOLVED: To obtain a base-isolation equipment which is compact, and low in cost by arranging flexible insulation members in gaps made around walls in a building set to a low temperature range and installing a floor slab through a base-isolation rubber thereby preventing temperature drop in the base-isolation rubber. SOLUTION: A building 100 as a cold storage comprises a floor slab 21, wall 27 and ceiling 28 and an insulating material is used on the inner surfaces. A goods storing rack 26 is installed on a seismic isolation floor slab 24. The base-isolation floor slab 24 is supported on a floor slab 21 through base-isolation rubber 22, and an appropriate seismic isolation clearance 29 is provided. A portion of the base-isolation clearance 29 communicates with the base-isolation slab 24 and wall 27 by flexible thermal expansion members 25, and the insulating material 23 is attached to the above with insulation bolts 32. The thermal expansion 25 wraps glass wool with a damp-proof sheet and is formed to a thick bedquilt shape. By doing this, heat transfer form the low temperature zone 30 to a normal temperature zone 31 can be prevented and temperature drop in the base-isolation rubber 22 can be prevented. Thus, the base-isolation equipment can be built compactly at a low construction cost.
    • 19. 发明专利
    • BASE ISOLATION DEVICE
    • JPH11125308A
    • 1999-05-11
    • JP28868897
    • 1997-10-21
    • MITSUBISHI HEAVY IND LTD
    • ONO HIDETAKAKANEKO TORU
    • E04H9/02F16F15/02F16F15/03
    • PROBLEM TO BE SOLVED: To keep horizontal agitating force from being transmitted to the utmost and enable positioning by fitting a roller to the lower part of a structure, and disposing electromagnetic powder at the base of the structure and between magnetic pole plates installed on the ground. SOLUTION: A roller 6 is fitted to the lower part so that a structure 1 is moved by vibration, and electromagnetic powder 7 is disposed at the base of the structure 1 and between two magnetic pole plates 8, 8 installed on the ground. In the case where there are side walls 12, 13, for example, the respective positions A, B, C of the structure (rack) 1 are moved according to the respective waveforms 14, 15, 16 of the relative displacement to the ground 2. In the case where an earthquake wave with a displacement over the wall surface is produced in the first one or two periods, the rack 1 collides with the side walls 12, 13 to be subjected to large collision acceleration. The distances to the side walls are measured by range finders 10, 11, and just before the collision, magnetic field is applied to the magnetic pole plates 8, whereby when the viscosity of the electromagnetic powder 7 is increased to generate brake force, the rack 1 is decelerated to become a displacement waveform 17, so that collision can be avoided.