RU2209268C1 - Process of development of foundation pit - Google Patents

Abstract

FIELD: construction industry. SUBSTANCE: invention refers to development of foundation pits for structures of various assignment, it can be employed for open erection of tunnels worked deeper in soft water-saturated soil under conditions of crowded city development with large amount of service lines. Process of development of foundation pit includes projection mapping of future foundation pit, driving of holes to design depth along contour of it with removal of soil. Novelty of process lies in that holes are driven along contour of foundation pit from surface above contour of future foundation pit by ring drilling from longitudinal axis of planned foundation pit with erection of mass of rows of earth-and-cement cast-in-place piles round contour with formation of upper earth-and-cement cast-in-place piles in each row beneath laid service lines. Rows of earth-and-cement cast-in-place piles are erected with spacing of 0.81.0 diameter of earth-and-cement piles. Prior to removal of soil walls can be built by method of " wall in soil " or in the form of row of cast-in-place piles arranged tangentially and/or secantly at project depth. Walls can be erected on second-seventh day of erection of mass of earth-and-cement cast-in-place piles. EFFECT: decreased degree of risk of distortion of integrity of service lines laid before process of development, prevention of deformation and destruction of foundations of buildings and structures located in close proximity to developed foundation pit with simultaneous formation of antifiltration curtain and enhanced structure of foundation pit. 2 cl, 1 dwg

Description

 The invention relates to the field of construction, and in particular to methods of developing pits for structures for various purposes, and can be used in open-pit construction of tunnels buried in soil, in particular in weak water-saturated soil, in conditions of cramped urban development with a large number of communications.

 In the cramped conditions of urban development, the construction of any new facilities is significantly difficult. The construction of new facilities, in particular tunnels constructed in an open way, is complicated due to the presence of a significant number of communications buried in the ground, usually by 1.5-5 meters. The development of a pit in the immediate vicinity of the communications creates the possibility of subsidence of soils, which may lead to a violation of the integrity of communications, especially during construction work in weak water-saturated soils. In addition, the foundations and foundations of buildings, structures and roads located in the immediate vicinity of the newly constructed facility are subject to deformation and destruction.

 A known method of developing a pit, according to which in order to prevent collapse of the walls of the pit along the contour of the pit, vertical and deviated wells are drilled in which piles are made. Reinforcing bars with the release of their ends to the surface are placed on the walls of the wells facing the inside of the pit. Vertical piles are interconnected by a flexible fence, the upper end of the flexible fence is placed on the edge of the foundation pit and the ends of the reinforcing bars are passed through it, which are joined together by a grillage, and then the foundation pit is dug to the specified mark / SU 1530674, E 02 D 17/04, 1989 ./. The disadvantages of this method are the possibility of subsidence of soils under the communications located in the immediate vicinity of the excavation pit, which leads to a violation of their integrity, as well as its complexity, since all elements after their construction must be interconnected, which leads to higher cost of work and an increase in construction time .

 The closest in technical essence to the proposed one is a method of developing a pit, including designing the contour of a future pit, sinking along its contour of wells with subsequent extraction of soil to a design depth / SU 1469027 A1, E 02 D 17/00, 1989 /. The disadvantages of this method are the low reliability of the walls of the pit made of soil compacted by ramming, as well as the inability to use the method in a cramped urban area with a large number of communications near nearby buildings and structures.

 The objective of the present invention is to reduce the risk of violating the integrity of already laid by the time of construction of communications, preventing deformation and destruction of the foundations of buildings and structures located in the immediate vicinity of the excavation pit while creating an air curtain and increasing the reliability of the construction of the pit.

 The problem is solved due to the fact that in the method of developing a pit, including designing the contour of the future pit, sinking along its contour of wells with subsequent extraction of soil to the design depth, according to the invention, the sinking of wells along the contour of the pit is conducted from the surface above the contour of the future pit by fan-made drilling from the longitudinal axis of the designed foundation pit with erection along the contour of an array of rows of soil-cement piles with the formation of upper soil-cement piles of each row below the level of laid communications , The ranks of grouting piles erected in increments of 0.8-1 diameter grouting piles. In this case, before extracting soil to the design depth, walls of concrete can be erected using the "wall in soil" method or in the form of a series of bursing and / or bisecting bored piles. The walls can be erected on the 2-7th day after creating an array of soil-cement piles.

 The technical result consists in reducing the risk of violating the integrity of communications already laid by the time of construction, preventing deformation and destruction of the foundations of buildings and structures located in the immediate vicinity of the excavation pit, while creating an anti-filter curtain and increasing the reliability of the excavation design.

 The invention is illustrated in the drawing.

 The drawing schematically shows a vertical section of the projected pit with contouring with cement-cement piles from the surface above the contour of the future pit.

 A method of developing a pit is as follows.

 On the surface 1 of the excavation pit 2 under development, from the point 3 located on the longitudinal axis of the contour 4 of the pit 2, fan wells 5 diverge, in which cement-cement piles 7 were erected along the contour 4, below the laid communications zone 6.

 The development of the pit is as follows.

 In the vicinity of the communications 6 laid in the ground at a safe distance determined by the conditions of the work, a design of the excavation pit 2 is carried out. On the surface 1 of the excavation pit 2 being developed, equipment is installed on the longitudinal axis of its contour 4 at point 3 for fan construction of a number of cement piles. The upper soil-cement pile of the row is formed below the laid communications zone 6, for which the monitor with nozzles (not shown in the drawing) is lowered during the drilling process at an angle below the communications level to the required depth beyond the design loop for the subsequent construction of the cement-cement pile 7. Then, changing the drilling angle the next well, build the next cement pile, etc. Carrying out fan drilling, erect a series of soil cement piles 7 located along the contour 4 of the pit 2. After this, equipment for erecting soil cement piles is moved along the longitudinal axis of the excavation 3 mainly to a distance of 0.8 to 1 diameter of cement cement piles and fan the following row of cement cement piles is erected 7, secant or tangent to the first row of cement piles, depending on the pitch between the rows of piles being built. Such rows are erected along the entire length of pit 2 with the formation of an array, under the protection of which soil is extracted to the design depth. On the 2nd - 7th day after the erection of the cement-cement massif, before the excavation of the soil, walls of concrete can be erected using the "wall in soil" method or in the form of a series of bore-cutting and / or bore-cutting bored piles (not shown in the drawing). Soil to the design depth is extracted using earthmoving vehicles. After extracting the soil, concreting the walls of the pit is performed.

 The construction of walls using the wall-in-ground method or in the form of a series of tilting and / or bored cutting bored piles on the 2-7th day after the construction of an array of cement-cement piles is due to the fact that by this time the strength characteristics of soil-cement piles reach more than 30% of the design, and the erection of the walls is carried out under the protection of the reinforcing soil-cement massif.

 Soil-cement piles, erected under the communications laid in the ground, strengthen the soil under them, which prevents violation of the integrity of the communications in the process of excavation. In addition, an array of secant and / or tangent soil cement piles provides an airtight curtain of enclosing concrete pit walls, while concrete walls are protected by an array of cement piles or an array of cement piles and walls made of concrete using the wall-in-ground method or in the form of a number of bursing and / or bisecting bored piles.

 Examples of the method.

 Example 1. During the construction of the tunnel, it became necessary to construct a foundation pit 4 m deep with a width of 10.2 m in fluid-plastic loams at a distance of 5 m from a residential building. Directly along the border of the projected foundation pit there are heating mains, water supply and telephone cables. The communications are located at a depth of 2.2 m. On the longitudinal axis of the projected tunnel, an installation is made for the construction of cement piles using the Jet 1 method. From this point fan-made drilling and the formation of cement piles with a diameter of 1.2 m are performed so that the axes of the upper piles intersect the design contour pit at a depth of 3.0 m. The inclination angle is selected from the calculation so that at a distance of 1.5 m behind the design contour of the pit, the cement-cement piles form a continuous array. The length of each pile is 2.4 m. After contouring the designed pit near the cement piles, the installation is moved 1 m along the longitudinal axis of the pit and the next row of cement piles is formed, etc. Cross-cutting soil-cement piles of adjacent rows form a continuous array. On the 3rd day after the completion of the formation of an array of soil-cement piles under its protection for contouring the designed foundation pit, excavation of the entire volume of the designed foundation pit is carried out. At its base, a concrete tray is arranged. On the third day after laying the concrete of the tray, formwork is erected along the walls of the pit and concrete is poured to form the body of the tunnel structure with a width of 0.8 m.

 Example 2. During the construction of the tunnel, it became necessary to construct a pit 8 m deep and 15.5 m wide in water-saturated sands at a distance of 6 m from a residential building. Directly along the border of the projected pit, engineering communications pass at a depth of 2.7 m. On the longitudinal axis of the projected tunnel, an installation is set up for erecting cement-cement piles by the Jet 1 method. From this point fan-made drilling and formation of cement-cement piles with a diameter of 1.2 m are made so that the axes the upper piles cross the design pit contour at a depth of 3.5 m. The inclination angle is selected so that at a distance of 2.6 m behind the design pit contour, the cement-cement piles form a continuous array. The length of each pile is 3.4 m. After contouring the designed pit near the cement piles, the installation is moved 1 m along the longitudinal axis of the pit and the next row of cement piles is formed, etc.

 Cross-cutting soil-cement piles of adjacent rows form a continuous array. On the 3rd day after the completion of the formation of an array of soil-cement piles under its protection to outline the designed pit along its length, walls are erected in the form of a series of bored bored piles with a diameter of 0.8 m to protect the pit for the period of construction work. These walls can also be used as the supporting structure of the tunnel under construction.

 Thus, the proposed method allows you to develop pits and build, for example, tunnels in conditions of cramped urban development, reduce the risk of violating the integrity of already laid communications by the time construction begins, and prevent deformation and destruction of the foundations of buildings and structures located in the immediate vicinity of the excavation pit under at the same time increasing the reliability of the construction of the pit and creating an anti-filter curtain, especially in weak water-saturated soils.

Claims (3)

 1. A method of developing a pit, including designing the contour of the future pit, sinking along its contour of wells with subsequent extraction of soil to the design depth, characterized in that the sinking of wells along the contour of the pit is conducted from the surface above the contour of the future pit by fan-shaped drilling from the longitudinal axis of the projected pit with construction along the contour of an array of rows of soil-cement piles with the formation of the upper soil-cement piles of each row below the level of laid communications, and the rows of soil-cement piles erecting a pitch of 0.8 - 1 grouting diameter piles.  2. The method according to p. 1, characterized in that before extracting the soil to the design depth, walls of concrete are erected using the "wall in soil" method or in the form of a series of bursing and / or bisecting bored piles.  3. The method according to claim 2, characterized in that the walls are erected on the 2nd - 7th day after creating an array of soil-cement piles.