RU51638U1 - BOARD WALL IN SOIL - Google Patents

Abstract

The utility model relates to the field of construction, namely, to the construction of enclosing walls in the ground, in particular, in weak water-saturated soils. The enclosing wall consists of a fixing array of soil-cement piles, inside of which there are freestanding bored piles containing a concrete shaft and a reinforcing element made in the form of a pipe with slots in the upper part and equipped with a sealed cone in the lower part. The technical result provided by the utility model is to increase the reliability of the wall and reduce the time of its construction.

Description

The utility model relates to the field of construction and can be used in the construction of structures for various purposes buried in the ground, in particular, in weak water-saturated soil, namely, enclosing walls erected in the ground in the immediate vicinity of standing buildings and structures.

The construction of new facilities erected in an open way without dismantling buildings, structures and roads located in the immediate vicinity of the newly constructed facility in weak, saturated soils requires the creation of reliable enclosing walls.

Known enclosing wall in the ground, containing at least two rows of vertical elements of the fence, which in each subsequent row are offset relative to the vertical elements of the previous row, and adjacent vertical elements are connected by bonds. / RF patent No. 2095520, E 02 D 29/00, 5/20, 1997 /.

The disadvantages of the known design are the low reliability and bearing capacity of the connections connecting the vertical elements of the fence, as well as the difficulty of erecting such a wall in the ground, since all adjacent vertical elements after their construction must be interconnected, which leads to higher cost of work and increase construction time .

The closest in technical essence to the proposed one is the enclosing wall in the soil made of vertical soil-cement piles with the formation of an array and equipped with located inside the array, in particular, stand-alone bored piles. / Certificate for Utility Model of the Russian Federation No. 28499, E 02 D 29/00 5/20, 2003 /.

The disadvantages of the known design of the enclosing wall in the soil are the possibility of groundwater entering concrete during the construction of bored piles, as well as the long time of its construction.

The objective of this utility model is to create a boundary wall in the ground, which prevents the penetration of groundwater and the sliding of the soil towards the structures under construction in the shortest possible time.

The technical result provided by the utility model is to increase the reliability, bearing capacity and water resistance of the enclosing wall, as well as reducing the time of its construction.

The problem is solved, and the technical effect is achieved due to the fact that in the enclosing wall in the soil containing an array of soil cement piles and separate bored piles located inside the array, the soil consolidating array has a depth exceeding the design depth of the enclosing wall not less than 0.5 m, and each free-standing bored pile contains a concrete shaft and a reinforcing element made in the form of a pipe with slots in the upper part and provided with a sealed cone in the lower part m, thus, sealing of the bottom of the reinforcing element in the array of bored piles grouting piles is not less than 0.5 m.

Preferably, the height of the sealed cone is at least 0.25 m, and the bottom of the reinforcing element of the bored pile is located at the design depth of the enclosing wall.

The drawing schematically shows the enclosing wall in the ground.

The enclosing wall in the soil contains an array 1 of soil-cement piles securing the soil to a depth of H, and separate bored piles 2 located inside the array, with a height h equal to the design depth of the enclosing wall, consisting of a concrete shaft 3 and a reinforcing element 4 made in the form of a pipe with slots 5 and provided in the lower part with an airtight cone 6 with a height h _{k of} at least 0.25 m. Moreover, the depth of an array of soil cement piles N exceeds the design depth of the enclosing wall by at least 0.5 m.

An array of soil-cement piles mainly provides waterproofing of the enclosing wall in the soil, however, its reliability and bearing capacity are insufficient. The array is supplied with bored piles located inside it, containing a concrete shaft and a reinforcing cage made in the form of a pipe with slots and a sealed cone at the end, erected at least to the design depth of the enclosing wall, which makes it possible to increase its reliability, bearing capacity and ability to withstand bending loads with while ensuring the waterproofing of the enclosing wall in the ground.

The boundary wall in water-saturated soils represented by loams, sandy loams, fine sands, etc., is erected as follows.

The soil is fixed by the jet cementation method to a depth H exceeding the design depth of the enclosing wall h by not less than 0.5 m. On the second or third day after the completion of cementation, in some areas, wells are constructed for bored piles by a drilling rig designed for excavation soil with a screw or bucket (without casing). In the drilled wells, the reinforcing element 5 is immersed in the form of a pipe with slots in the upper part and a sealed cone-tip, preferably with a height of at least 0.25 m. After the immersion of the reinforcing element is completed, its internal cavity is filled with concrete to form a concrete shaft 3 of the bored pile 2 If there is groundwater in the drilled well that pushes the reinforcing element during the process of immersion, its cone is first loaded with concrete mixture, and then immersion continues.

The presence of slots 5 in the upper part of the reinforcing element 4 allows the concrete mixture to flow through them and fill the voids between the drilled hole and the reinforcing element, thereby increasing the water resistance of the enclosing wall. At the same time, groundwater seeping through the array 1 is forced out onto the surface of the enclosing wall.

The conical tip 6 of the reinforcing element 4 allows you to accelerate the immersion in the well of the reinforcing element, and making it airtight prevents ground water from entering the reinforcing element and mixing them with the concrete mixture, which increases the reliability of the structure.

The height of the sealed cone is less than 0.25 m, usually not enough to accelerate the immersion of the reinforcing element.

The implementation of the depth of the soil-consolidating array 1, exceeding the design depth of the enclosing wall by at least 0.5 m, as well as the sealing of the bottom of the reinforcing element of the bored pile in the array of soil-cement piles not less than 0.5 m, can improve the reliability of the enclosing wall.

When supplying an array of soil-cement piles 1 with stand-alone bored piles 2 at the end of preparatory work, for example, in the construction of a foundation pit, elements 2 can be used as load-bearing elements of a newly constructed structure. The increase in the bearing capacity of these elements is due to the partial removal of the horizontal loads acting on them due to the distribution of loads in the array of soil-cement piles. At the same time, bored piles are protected by an array of soil-cement piles.

The proposed enclosing wall in the soil prevents the movement of soil behind the enclosing wall from the side of already standing structures, which prevents deformation and destruction of their foundations and foundations, and also prevents the penetration of groundwater and the sliding of the soil towards the structures under construction.

The construction of the proposed enclosing wall allows one and a half to two times to reduce construction time.

Claims (3)

1. The enclosing wall in the soil, containing an array of soil-cementing piles fixing the soil and separate bored piles located inside the array, characterized in that the soil-fixing array has a depth exceeding the design depth of the enclosing wall by at least 0.5 m, and each separately a standing bored pile contains a concrete shaft and a reinforcing element made in the form of a pipe with slots in the upper part and provided with a sealed cone in the lower part, while closing the bottom of the reinforcing element of the bored piles in an array of soil cement piles is at least 0.5 m. 2. The enclosing wall according to claim 1, characterized in that the height of the sealed cone is at least 0.25 m 3. The enclosing wall according to claim 1 or 2, characterized in that the bottom of the reinforcing element of the bored pile is located at the design depth of the enclosing wall.