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    • 6. 发明专利
    • METHOD AND APPARATUS FOR MEASURING COMPACTNESS OF SOIL ON SITE
    • JPS60253617A
    • 1985-12-14
    • JP11052484
    • 1984-05-30
    • SHIMIZU CONSTRUCTION CO LTD
    • MIYAMOTO TAKESHI
    • E02D1/02
    • PURPOSE:To easily measure the compactness of soil on site by a method in which the compactness of wet soil is obtained from the volume of a test hole and the weight of soil sampled by excavation from the test hole, and the dryness of the soil is obtained from the compactness and water content of wet soil. CONSTITUTION:A rubber balloon 7 is provided to a container of a volume V1. A piston 6b is pushed to add a pressure to the balloon 7, the value (r1) of a volume-indicating graduation 6e when the balloon 7 is maximumly expanded is read, and the value (r2) for a volume V2 is also read. A comparision constant K is obtained by the following formula. K=V2-V1/r2-r1(cm ). The initial value (r0) of the graduation 6e for a container of V0 is read, and a test hole 10 is excavated to take soil of a weight (m). The water content W of the soil is obtained, and the value (r3) when the balloon 7 is expanded in the hole 10 until the graduation 6e becomes unchanged is read. The compactness Pt of wet soil on site is obtained by the following formula. V=V0+K(r3-r0)-C, where V is volume of the hole 10 and C is volume of the hole 2a of a plate 2. Pt=m/V(t/cm ) and Pd (dry compactness) = Pt/(W+100)X100(t/cm ).
    • 10. 发明专利
    • ASEISMIC BASE ISOLATION METHOD
    • JPH10292391A
    • 1998-11-04
    • JP9940297
    • 1997-04-16
    • SHIMIZU CONSTRUCTION CO LTD
    • GOTO SHIGERUSHAMOTO YASUHIROMIYAMOTO TAKESHI
    • E02D27/34
    • PROBLEM TO BE SOLVED: To obtain effective aseismic base isolation effects easily and at low costs by a method wherein a liquefactive ground under a structure is improved and a dilute chemical liquid is injected into the ground in the range from the underside of the structure to a predetermined depth to improve the ground. SOLUTION: A sufficient ground improvement is applied, by an ordinary ground improvement method, to the ground in the range S1 from the underside of the structure 10 to a depth below a predetermined depth, out of the ground G in the range S below the structure 10. And a dilute chemical liquid L is injected into the ground in the range S2 from the underside 10a of the structure 10 to the predetermined depth to improve the ground. As the liquid L, for example, a liquid 3-5 times thinner than the conventional concentration is used. In the range S2 into which the liquid L is injected, rigidity can be maintained normally, and when an earthquake occurs, the rigidity is lowered so that a damper function is produced to prevent seismic waves from being transmitted to the structure 10 and hence a large displacement can be avoided and liquefaction can be prevented.