TH5151B - "How to build pillars in the soil foundation" - Google Patents

Abstract

Building a type of column in the soil foundation Strength fluid is sprayed within the soil foundation from the strength fluid nozzle held on the rotating shaft. and then the strength fluid and the soil of the original foundation are stirred and mixed. The strength fluid nozzle, which sprays the strength fluid approximately horizontally, is held on a rotating shaft.The column is erected in the soil foundation by stirring and mixing the strength fluid and soil of the original foundation together accordingly. the way that The rotational speed of the rotary shaft for clay soils is faster than for sandy soils. The pressure from the fluid nozzle provides higher strength for clay soils than for sandy soils. and the drilling speed of the rotary shaft for clay soil is slower than for sandy soil. This makes it possible to create high-quality foundation-improved columns in the soil foundation by a very efficient method relative to the heterogeneity in the soil.

Claims (1)

1. How to build one column in a soil foundation. Which consists of Foundation drilling with a drill arranged on the lower end of the spinning shaft. While spraying the strength fluid downward From the lower nozzle of the auger and the stirring and mixing of the foundation dug into the foundation. With the fluid providing such strength Which was sprayed in the direction One that includes at least one diagonal direction from Side-mounted nozzles arranged in such a rotating shaft and step-spaced. Towards the top of the drill Where the rotation speed of the shaft for clay is Was made faster than the speed for sandy soils. Fluid pressure Provide such strength from such a side nozzle for the soil. The clay is greater than the pressure for sandy soils. And speed in The penetration through the rotating shaft for clay is slower. Speed for sandy soils 2. Method as stated in claim 1 where the nozzle side These sides are placed on the said rotating shaft for spraying of Flow gives such strength in a diagonal direction downward Below from the said area 3. Method as specified in claim 1 where the nozzle side These sides are placed on the said rotating shaft for spraying of Flow to its strength in a diagonal direction upward from Such area 4. Method as specified in claim 1 where the nozzle side These sides include at least two designs selected from the group containing one nozzle for spraying hardening fluids. Such forces in a diagonal direction downward, the second nozzle for spraying the fluid provides such strength in that direction. Diagonally up to the top And a third nozzle for spraying Fluid provides such strength in the horizontal direction perpendicular to The spinning shaft 5. Methods outlined in claim 4 where the fluid provides Such strength will be sprayed selectively from the said side nozzle. 6. Method according to claim 4, where the nozzle side Such sides are arranged in such a rotating shaft in a manner that Such strength flow is sprayed from one type of nozzles. Such sides resist against the fluid, providing such strength that It is injected from another type of the said nozzle. 7. Method as stated in claim 1 where the human being is done. 8. The method specified in claim 7, where the elements of The aforementioned man and the nozzle on one side are arranged in the shaft. This rotation in such a way that the fluid stabilizes the cage. Spray in a downward direction from the nozzle side. The said side against the human component 9. Methods stated in claim 7 where the elements of Such people are arranged on the spinning shaft in a manner that Such strong flow is sprayed in the diagonal direction. The angle to the top from the lateral head opposes the element. 1 0. The method specified in claim 1 where the shaft rotates as It is said to be positioned within the wrap for the right land. Dig it up and the fluid to be strengthened it will be stirred and mixed. Together within the aforementioned encapsulation 1 1. The methods stated in claim 1 where the speed of The rotation of the spinning shaft is defined as approximately 40 to 70 rpm for clay and 25 to 40 rpm for sandy clay. And the pressure of the fluid gives it its strength. According to the side nozzle, it is defined as approximately 100 to 500 kg / cm2 for clay soil and approximately 50 to 100 kg / cm2 for sandy soils. And the speed of penetration through the The spinning shaft is specified as approximately 1 m / min for clay and approximately 2 m / min for sandy soil.