SU887737A1 - Foundation of a cylindrical tank - Google Patents

Description

The invention relates to construction, namely to the construction of foundations for tanks.

Known bulk foundation under the tank [1]. 5

The disadvantage of such a foundation is its large precipitation during construction on soft soils.

The closest solution to the invention in terms of technical nature and the achieved result is the foundation of a cylindrical tank made in the form of a cylindrical element located in the ground, the inner diameter of which exceeds the outer size of the reservoir 15 [2].

Such a foundation reduces reservoir precipitation due to the fact that the cylinder prevents lateral expansion of the soil and its evaporation. 20

The disadvantage of this foundation is the high cost when building on large thicknesses of soft soils, since the cylinder must be buried in a layer of practically incompressible soil. Under the ground conditions characteristic of Western Siberia, it is generally unacceptable, since the practically incompressible layer of soil is located, as a rule, at a depth of several tens of meters. thirty

The aim of the invention is to reduce material consumption during construction on soft soils of the base.

This goal is achieved by the fact that in the foundation of a cylindrical tank made in the form of a cylindrical element located in the soil, the inner diameter of which exceeds the outer diameter of the tank, the cylindrical element is made in the form of piles placed at a distance from one another, united on top by an annular grillage, the top mark of which is lower mark the bottom of the tank wall by an amount not less than

1.2 of the estimated settlement of the base, and the depth of the piles is 0.6-0.7 of the height of the tank wall.

The drawing shows a General view of the tank with the foundation.

The foundation of the tank 1 is made in the form of a cylindrical element formed by piles 2, united by an annular grillage 3. The inner diameter of the foundation exceeds the outer diameter of the tank 1. Piles 2 are driven into weak soil to a depth of 0.6-0.7 N, where And is the height tank walls. A sand preparation layer 4 is laid directly under the tank, the thickness of which ensures that the mark no. 877737 behind the tank exceeds the mark of the top of the grillage by an amount equal to 1.2 of the estimated settlement of the base.

When the length of the piles is 0.6 7 /, soil blockage, and therefore unacceptable uneven rainfall, will be excluded. In this case, the base of the tank will work under conditions identical to the work of the soil sample in the compression device, and only uniform precipitation will occur. Since the grillage does not perceive vertical load, there will be no precipitation; therefore, the reservoir will receive vertical movement relative to the grillage. In order to ensure normal access to the most critical place during operation of the tank — the junction of the vertical wall to the bottom, it is necessary that the bottom mark of the tank wall exceeds the mark of the top of the grillage by the amount of precipitation.

The bottom mark of the tank must exceed the mark of the top of the grillage by 1.2 calculated settlement of the base, from the condition of exceeding the actual · 'settlement settlement by 20% ·, .... ί

Pile yogut “to be used in a variety of ways4 ^^ iron (concrete, metal, woodworking) Piling can be carried out in one row several rows.

Using the.-Proposed foundation will reduce the consumption of the zero cycle by reducing the depth of the foundation and making it intermittent in plan. It is especially advisable to use it in Western Siberia, where strong soils occur at a great 5 depth.

Claims (2)

Claim The base of the cylindrical tank, E made in the form of a cylindrical element located in the soil, the inner diameter of which exceeds the outer size of the tank, characterized in that, in order to reduce the material5 capacity during construction on soft soils of the base, the cylindrical element is made in the form placed at a distance from one another piles united on top by an annular grillage, the mark of the top) of which is lower than the mark of the bottom of the tank wall by at least 1.2 of the calculated settlement of the base, and g the pit laying pit is 0.6-0.7 of the height of the tank wall. ’Sources of information taken into account in the examination 1. Stulov A.I. et al. Construction of gas storage facilities and tank farms. - ΛΑ., Nedra, 1973,) p. 43-44. 2. Proceedings of the 5th International Conference on Soil Mechanics and Foundation Engineering, D. V. Roberts, Foundations for Cylindrical Storage Tanks, 785-787.