SU751909A1 - Method of making an ascending well - Google Patents

Description

The invention relates to the field of construction, namely the construction of underground structures and foundations by way of lowering wells. It can be used in any engineering-geological conditions, but it is most effective in soft and rocky soils, as well as in heterogeneous soils with inclined bedding.

A known method of erecting a lowering well by developing soil in their cavity with the formation of support zones, which must be developed simultaneously to avoid heeling of wells.

The disadvantage of this method is that any deviations from the specified technology of soil development lead to the roll of the well, as when diving, it always relies on the ground, as well as the low speed of the lowering well in connection with the layered development of the soil inside the well.

The closest technical solution to the invention is a method of erecting a lowering well, including performing in the soil along the contour of the walls of the well wells, installing the well and diving it in sequence while developing the soil in its cavity.

The disadvantages of this method is the inability to control the dive and the maximum elimination of distortions.

The purpose of the invention - the ability to pack ⁵ systematic way immersion and exclusion bias.

To this end, according to the proposed method of erecting a lowering well, which includes performing in the soil along the contour of the walls 10 of the well wells, installing the well and subsequently immersing it with the simultaneous development of soil in its cavity, after completing the wells, fill them with sand for a portion of the length, and each 15 for the remaining part the wells are immersed in a pile with an abrasion device; during installation, the lowering well is supported on the upper ends of the szay, moreover, the well is immersed by erosion of sand in wells under piles.

Before the construction of the lowering well, along the perimeter of its walls, wells are drilled 2.5-3.0 m deep below the design mark for the well's immersion. Wells 25 are filled with sand to a level of 4.5 m below the planning level of the earth. The number of wells is determined depending on the weight of the downhole and the bearing capacity of the piles. Then, a pile equipped with devices of 751909 of each value is poured into each well of the mouth ³⁰ :

collection for washing. The length of the pile consists of the following pinching in the well 2.0 m; one landing of a well, determined by the height of the bottom of the excavation, 2.5 m; the height of the knife part of the well (from the bench of the bed to the ledge), determined by the thickness of the bottom and drainage layer under the bottom, is 1.0-1.5 m. The total length of the pile is 5.5-6.0 m.

After this, concreting monolithic or installation of a prefabricated lowering well is performed. The support of the well on the upper ends of the piles is more appropriate to perform at the level of the ledge for the bottom. When the well’s design acquires design strength, the temporary supports on which the well was constructed are disassembled, as a result of which the weight of the well is transferred to the piles. Then, the soil in the well is developed to a depth of 2.5 m and the casing pipe (if it was necessary under the drilling conditions) is removed from the well in the area of the developed soil (they are dismantled or cut out). After that, turn on the pump, which supplies the pressure water to the washing device and immerses the well by 2.5 m. The cycle of work on the development of the soil and the inclusion of washing out is repeated until the well reaches the design mark.

The constant support of the well on piles throughout the entire process of diving allows you to eliminate the direct relationship between the development of the soil and the plantings of the well and thereby organize the work of mechanisms in the well, based only on their maximum productivity, without fear of involuntary and unplanned landings. In particular, it is possible to increase the height of the face when developing the soil to a value that ensures full filling of the excavator bucket, the movements of the excavator inside the well are minimized. As a result of an increase in the · productivity of mechanisms in the development of the soil, the immersion time of the lowering well is reduced and thereby the immersion speed is increased. Supporting a well during loading onto piles, rather than onto the ground, eliminates the need for the formation of soil bearing zones and their subsequent simultaneous development in thin layers, which most often can only be done manually. Therefore, there is no need for manual excavation. In addition, resting on piles prevents compaction of the soil under the knife part, resulting in reduced side friction of the walls against the ground.

Uniform roll-free immersion of the lowering well is ensured by simultaneous immersion of the piles on which it rests. And the simultaneous immersion of piles is achieved by simultaneous erosion of sand under the lower ends of the piles, i.e., by hydraulic washing. If for some reason the roll did occur, then it can be straightened by turning on the hydraulic wash only on a group of piles from the side of the roll.

The inclusion of a hydraulic lifting system for piles reliably stops further immersion of the well at any given point, within the depth to which the soil in the well is developed. So that the heterogeneity of the properties of the soil along the perimeter of the walls and the depth of immersion does not affect the uniformity of immersion of the piles and, consequently, the immersion of the well, the piles are immersed not in natural soil, but in sand-filled wells.

The proposed method makes significant simplifications in the process of immersion of the well. Immersion of a well on stilts makes it impossible for banks to appear due to heterogeneity of the soil.

Claims (1)

Claim A method of erecting a lowering well, including performing in the soil along the contour of the walls of the well wells, installing the well and diving it in parallel with the simultaneous development of soil in its cavity, characterized in that, in order to be able to control the dive and eliminate distortions, after filling the wells, fill them in part lengths of sand, and in the remainder of each well a pile is immersed with an assembly for washing, while the lowering well is supported on the ends of the piles, and the immersion is carried out by erosion of the wells under the piles. fitting the upper sand wells in