RU2114957C1 - Method and device for stabilization of earth structure - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this is intended for stabilization of earth structure which is built or being built on loose base, especially on swampy base. According to method, bore-holes are drilled with use of casing pipes along structure with cutting through its body, through underlying course of peat with embedding into mineral bottom. Then subsequently lowered into bore-holes is working electrode which is connected to electric pulsing unit. Bore-holes are filled with hardening material and electric charges are performed at level of lower part of bore-hole. Electrode is gradually lifted until creation along rows of bore-holes of counterfiltration walls which are made up of piles closely adjoining each other or crossing. Device for stabilization of earth structure has movable platform which is made up of four sections connected together by flexible link, and supports in the form of two rows of pipes located along earth structure in drilled bore-holes. Pipes in row which is most distant from longitudinal axis of earth structure create supporting members of supports, and pipes of other row create casing members for carrying out stabilizing operations. Installed on first section of platform as to direction of movement, is drilling machine, and installed on two following sections of platform are electric pulsing unit and pulling winches for movement of platform. Last section of platform carries slewing crane for extracting pipes from bore-holes. Application of aforesaid method and device ensures reduction of labour and material expenses, cuts time needed for carrying out operations, improves quality of stabilization and prolongs service life of earth structure. EFFECT: higher efficiency. 2 cl, 5 dwg

Description

 The invention relates to the field of construction, including transport, road and hydraulic engineering, and can be used to strengthen earthworks for various purposes, including embankments of subgrade, dams, slopes of earthworks intended for the construction of various structures on them, etc. . objects erected on weak, including marshy soils.

 A known method of strengthening earthworks, including conducting workings by drilling from the earth's surface of directional wells and installing cable anchors with downhole locks in them, the wells being helical along the axis of the sliding plane, and the spiral diameter is reduced with the penetration depth [1].

 Closest to the invention in terms of the method for the problem to be achieved and the achieved result is the method of strengthening the earth structure adopted for the closest analogue, including drilling along the well construction, filling the wells with hardening material and forming pile trunks [2].

 In terms of the device for strengthening the earthworks, the closest is the device for strengthening the earthworks, including a movable supporting metal platform mounted on supports, and equipment for the implementation of works on strengthening [3].

 The disadvantages of the known method and device are the large labor and material costs, the long lead time, the inability to perform work in the swamps and the use for earthworks with slopes of great steepness, the insufficient reliability of the reinforcement and the fragility of the reinforced structures, and the known method does not significantly reduce the elastic amplitude fluctuations of the earthwork, designed to locate on it the paths arising from the movement of rolling stock.

 The objective of the present invention is to reduce labor and material costs, reduce the time of work, increase the reliability of the strengthening and durability of the structures to be strengthened while making it possible to carry out work to strengthen earthworks with slopes of any steepness and in the conditions of construction or strengthening of earthworks located on a weak, including number, marshy base, as well as reducing the magnitude of the elastic vibrations of the earthwork to a predetermined standard value.

 The problem is solved due to the fact that in the method of strengthening the earthworks, including drilling along the wells, filling the wells with hardening material and the formation of piles, while strengthening the earthworks, erected or erected in the swamps, the wells are drilled using casing in rows from the outer sides of the tracks from the upper surface of the earthworks with cutting through the body of the structure, the underlying layer of peat and deepening the mineral bottom into the underlying layer of peat, followed by but the working electrode is lowered, which is connected to the electric pulse installation, the wells are filled with hardening electrically conductive material, and a predetermined number of electric discharges are produced when the electrodes are located in the lower part of the well and as it rises to form anti-filter walls along the rows of wells from adjacent adjacent or split ends piles.

 In terms of the device, the problem was solved due to the fact that in the device for strengthening the earthworks, including a movable supporting metal platform mounted on poles, and equipment for carrying out reinforcement works, the length of the platform is made up of four sections connected by flexible connection, and the supports - in the form of pipes located along the earthworks in drilled two rows of wells with the formation of pipes of one row, the most remote from the longitudinal axis of the earthworks, supporting elements about holes, and pipes of another row, the least distant from the longitudinal axis of the earthworks, - casing elements to carry out works to strengthen the earthworks, and the drilling rig is located on the first section of the platform during the work, and on the next two sections there is an electric-pulse installation for the production of electric discharges in the wells, while strengthening the soil and traction winches, the platform moves to a predetermined design step, and in the last section there is a rotary crane for extracting pipes from the wells alive and casing elements of the supports.

 The technical result provided by the enumerated set of features is that it is possible to create a rigid pile foundation in the body of the earth structure, erected or erected on a weak foundation, the ends of the piles of which are embedded in the mineral bottom, which ensures increased durability of the reinforced structures, reliability strengthening, as well as reducing labor and material consumption, the timing of the work that is possible to carry out in the conditions of weak foundations and I earthworks slopes with any steepness.

 In FIG. 1 shows a cross-section of an earthen structure reinforced by the method of the invention; in FIG. 2 - the same in plan; in FIG. 3 - earthworks in the production stage; in FIG. 4 - the same in plan; in FIG. 5 - platform in plan.

 The method of strengthening the earthworks 1, erected or being built in the swamps, is carried out by drilling along the structure 1 wells 2, which are performed using casing rows in rows from the outer sides of the paths 4 located on the structure 1. Wells 2 cut through the body of the earthworks 1, the underlying layer peat 5 (weak base) and the mineral bottom 6 is buried in the underlying layer of peat 5. A working electrode (not shown) is successively lowered into the wells 2, which is connected to an electric pulse installation (on tezhah not shown), the borehole is filled with a hardening conductive material and produce a predetermined number of electrical discharges at the location of electrodes in the bottom of the well and at least its recovery to form along the rows of wells impervious walls of adjacent formed close to each other or split piles 7.

 A device for strengthening the earthworks 1 contains a movable supporting metal platform 8, made up of four sections 9, 10, 11, 12 connected by a flexible connection 13. The platform 8 is mounted on supports 14, which are made in the form of two rows of pipes located along the structure 1 .

 Pipes 15, located in the row farthest from the longitudinal axis of the earthworks 1, form the supporting elements of the support 14, and pipes 16 (not shown), located in the row farthest from the longitudinal axis of the earthworks 1, form casing elements for the construction of the earthworks and it is in this series of wells that form adjacent to each other or split piles 7.

 On the first in the course of the work of section 9 of platform 8, a drilling rig (not shown in the drawings) is placed on the next two 10 and 11 - an electric-pulse installation for producing electric discharges in wells during soil strengthening and traction winches (not shown in the drawings) for moving the platform 8 at a given design step, and at the last section 12 - a slewing crane for extracting pipes 15, 16 from the wells, which form supporting and casing elements of supports 14, respectively.

 Pipes 15 and 16 are inventory and after removal from the wells, these pipes are sent to the first section 9 of the platform 8 for reuse.

Claims (2)

 1. The method of strengthening the earthworks, including drilling along the wells, filling the wells with hardening material and the formation of piles, characterized in that when strengthening the earthworks, erected or erected in the swamps, the wells are drilled using casing in rows from the outer sides of the tracks from the top the surface of the earthworks with cutting through the body of the structure, the underlying layer of peat and deepening the mineral bottom into the underlying layer of peat, after which the wells are subsequently lowered into the wells t working electrode, which is connected to the electric pulse installation, fill the wells with hardening conductive material and produce a predetermined number of electric discharges when the electrode is located in the lower part of the well and as it rises to form anti-filter walls along the rows of wells from the adjacent adjacent or split piles .  2. A device for strengthening an earth structure, including a movable supporting metal platform mounted on supports, and equipment for carrying out reinforcement work, characterized in that the platform is made in length by a composite of four sections connected by a flexible connection, and the supports are in the form of pipes arranged along the earthworks in boreholes drilled by two rows with the formation of pipes of one row farthest from the longitudinal axis of the earthwork, supporting support elements, and pipes of the other, the smallest a series of casing elements remote from the longitudinal axis of the earth structure — casing elements for carrying out works to strengthen the earth structure, and a drilling rig is located on the first section of the platform along the course of the work, and on the next two sections there is an electrical impulse installation for producing electrical discharges in wells during soil strengthening and traction winches for moving the platform to a given design step, and on the last section - a slewing crane for extracting pipes from the wells that form supporting and casing elements Options supports.

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