RU2468146C1 - Method for prevention of landslip formation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method consists in capture of underground waters with the help of a full catch drain mine perpendicular to a direction of a flow of water flowing out from water-bearing horizons and connected with vertical wells drilled from day surface. Vertical wells are through filters crossing water-bearing horizons, and water-reducing wells, which on crossing with water-bearing horizons are equipped with filtering elements. Additionally from the day surface along the line of through filters, water monitoring wells are laid for water level monitoring in water-bearing horizons. At the same time at first from the day surface of a landslip-to-landslip collar under water-bearing horizons and landslip massifs with an inclination to the line of location of a shaft water-discharge collector for water self-flow, the well is tunnelled by means of horizontal directed drilling perpendicularly to the direction of water flow leaking out from water-bearing horizons. Into this well a pipe of a water-discharge pipeline perforated on top to the middle of cross section is pulled with an inclination to the shaft water-discharge collector for self-flow of collected water. Afterwards on top or at the bottom of the landslip inclination a well is tunnelled with directed drilling, where a pipe of the shaft water-bearing collector is pulled into, stretching under sections of water flows in a water discharge pipeline, where an inspection shaft is arranged. In the shaft a water-discharge pipeline is connected with a shaft water-bearing collector with the help of a T-shaped nozzle. The connection branch of the nozzle towards the shaft water-bearing collector may be of different length. On top towards the performed water-bearing pipeline, there are vertical wells reaching, equipped with perforated drainage pipes filled with a replaceable filtering material. Between vertical wells aside from the water-bearing pipeline there are water monitoring wells arranged. All pipelines and vertical wells coming out to the surface and covered with protective caps.

EFFECT: higher safety of a device of a drainage transport hydraulic system for prevention of landslips formation, which provides for higher reliability of the proposed method.

5 dwg

Description

The present invention relates to hydraulic engineering and can be used to stabilize slopes exposed to groundwater. This method can be applied in all cities located along the river bed - Rybinsk, Kazan, Ulyanovsk, Saratov, Volgograd, Tomsk, Ufa, etc.

There is a method of preventing the formation of landslides, which consists in intercepting groundwater using a drainage mine working perpendicular to the direction of flow of water flowing from the aquifers and connected to vertical wells drilled from the surface, which are through filters that cross all aquifers and are drilled from the mine ascending lowering wells (Abramov S.K. Underground drainages in industrial and urban construction. Moscow, Stroyizdat, 1973, p.128-130 , Fig. 95 b).

The disadvantage of this method is the high cost and danger of manufacturing a drainage mine, from which it is proposed to perform rising water-reducing wells, and its low efficiency due to the small area covered by the drained territory.

There is a method of draining landslide territories by draining directional drilling under a landslide, which can be carried out in such a way that the slip zone is cut and intersected by drainage pipes, changing the body of the landslide, thereby draining the landslide from the inside. When drilling through to the surface, drainage elements can be installed, for example perforated pipes (including the drain function) or anchors (A. Rybakov. Basics of trenchless technologies (theory and practice). M.: Publishing House Press Bureau. 2005. No. 1. p.145 -158).

The disadvantage of this method is that it assumes a local character of water removal in relation to a specific landslide and has a small drainage area, which is ineffective with respect to the area spread of landslide manifestations.

The closest analogue of the present invention is a method of preventing the formation of landslides, which consists in intercepting groundwater using a drainage mine working perpendicular to the direction of flow of water flowing from the aquifers and connected to vertical wells drilled from the day surface, which are through filters crossing all aquifers, and vertical wells at the intersection with aquifers equip with filter elements and additional gidronablyudatelnye drilled wells to monitor water levels in aquifers (Katyuhin VJ, Arkhipov MG, Karacheva EV method for preventing the formation of landslides // Abstract Journal -. №1, 2003).

The invention provides high reliability to prevent the formation of landslides due to the interaction of a mine working perpendicular to the direction of the stream pouring out from the aquifers and connected to vertical wells drilled from the surface, which are through filters that cross all aquifers and are drilled from the mine by rising dewatering wells .

The disadvantage of the closest analogue is that this method is expensive and dangerous due to the device of mining, performed by the shield method or by other methods of driving a full bore adit, lined with concrete blocks, from which it will be possible to arrange rising water-reducing wells.

The objective of the invention is to provide high reliability of the method of preventing landslides due to the exclusion of people from the laying of mine workings and the intensification of the systems due to the interaction of perforated catchment pipelines laid perpendicular to the direction of flow poured from landslide blocks and from aquifers and vertical perforated wells drilled from the surface towards the catchment perforated pipelines, intercept them to 90% of water aquifers and guided in a stem spillway collector pours parallel flow.

The problem is solved in that in the known method of preventing landslide formation, groundwater flows are intercepted using a full bore drainage mine working perpendicular to the direction of flow of water flowing from the aquifers and connected to vertical boreholes drilled from the surface, which are through filters crossing the aquifers, water-reducing wells, which are equipped with filter elements at the intersection with aquifers, rum, the further from the surface through the filter along line lay gidronablyudatelnye wells to monitor the water level in aquifers. A feature of the proposed method is that, first, from the day surface of the landslide ridge under aquifers and landslide massifs with a slope to the line of the spillway collector for gravity water, the wells are drilled by horizontal directional drilling perpendicular to the direction of the water flow pouring from the aquifers, where the perforated top is drawn up to the middle section of the drainage pipe with a slope to the stem spillway for sa edema of collected water, then a borehole passes through the top or bottom of the landslide slope by directional drilling, where the pipe of the stem spillway is drawn, which passes under the sections of the water flows in the drainage pipe, where an inspection well is arranged in which the drainage pipe is connected to the drainage stem with T -shaped pipe, in which the connecting branch to the side of the stem spillway can be of different lengths, from the top towards perforated Vertical wells equipped with perforated drainage pipes filled with filtering synthetic material are suitable for the drainage pipeline, and water-observation wells are placed between them away from the drainage pipeline, while all pipelines and vertical wells that come to the surface are covered with caps.

The invention is illustrated by drawings, where figure 1 shows a vertical section of the thickness of the constituent rocks and aquifers with a stem spillway and perpendicular to it drainage perforated pipelines from above, passing at the base of the aquifers, perforated drainage pipes and water observation wells to control the water level in the water horizons, while the perforated drainage pipes are located above the drainage pipelines, in the perforated part of the cat ryh reset collected from an aquifer and landslide water; figure 2 shows the layout of the drainage pipelines and the stem spillway, manholes, perforated drainage pipes and observation wells; figure 3 shows a vertical section of a soil massif with aquifers, catchment pipelines extending perpendicular to the direction of the flow of water released from the aquifers, to which perforated drainage pipes are lowered down, drilled into the wells drilled from above, and the collected water is transported through the stem spillway down beyond the landslide slope; figure 4 is a vertical section of a landslide slope with aquifers, landslide massifs, a spillway stem collector, drainage perforated pipelines from above and manholes.

A way to prevent landslides is to intercept groundwater using perforated drainage pipes 1 perpendicular to the middle of the cross-section, perpendicular to the direction of flow of water pouring out from the aquifers 2 and connected to the stem spillway 3 located below the perforated drainage pipes 1 and interconnected by a T-shaped pipe 4, and from the day surface in the direction of the perforated catchment pipelines 1, wells are drilled in which perforated drainage pipes 5 stuffed with replaceable filtering material 6, and at the intersection of the perforated drainage pipes 1 and the drainage stem 3, inspection wells 7 are arranged.

First, from the day surface of the landslide ridge under the aquifer (s) 2 and landslide massifs 8, with a bias from two sides to the direction of the stem spillway collector 3 for gravity water, a well is drilled using horizontal directional drilling perpendicular to the direction of the water flowing from aquifers 2. Then, a drainage pipe 1 perforated from above to the middle of the section is drawn into this well with a slope from two sides to the direction of the stem spillway 3. After that, a hole is passed through the top or bottom of the landslide slope by directional drilling, where a continuous pipe of the stem spillway 3 is pulled, which passes under the sections of the perforated drainage pipelines 1 at the junction points of the collected water flows, where a viewing well 7 is arranged in which the connection is made perforated drainage pipe 1 with a stem spillway 3 using a T-shaped pipe 4, which has a connecting branch towards the stem drainage dew collector 3 can be of various lengths depending on the position of the perforated drainage pipe 1 and the stem drainage collector 3. In the direction of the perforated drainage pipe 1 from the surface with a distance of approximately 3 - 5 m, water-reducing wells 4 are drilled along its axis to the depth of passage of the perforated drainage pipe 1, where the perforated drainage pipes 5 are placed, and between these wells, in the middle, away from the perforated drainage pipe 1, a water observer is drilled s hole 9 to control the water level in the landslide array facing the surface of perforated drainage pipes 1, perforated drain tubes 5 and 9 wells gidronablyudatelnye closed protective caps 10, 11.

The distance between the perforated drainage pipes 5, located along the perforated drainage pipe 1, providing drainage of the landslide array 8 and preventing the formation of landslides, is more accurately determined depending on the intensity of the water flow from aquifers and the soil filtration coefficient.

To implement the developed method, a device was created to prevent the formation of landslides.

The device to prevent the formation of landslides includes perforated drainage pipes 5 filled with replaceable filtering material 6, brought directly close to the perforated drainage pipe 1 laid in a well formed by horizontal directional drilling with a slope to the spillway collector 3, which discharges intercepted groundwater into river or other landslide-safe territory. At the intersection of the perforated drainage pipe 1 and the drainage pipe 3, there are inspection wells 7, where the collected water flows through the T-pipe 4 into the drainage pipe 3. On both sides of the drainage pipe 3, the axis of the drain pipe 1 is perforated from above perforated drainage pipes 5 and observation wells 9 are located to control the water level in aquifers 2 and landslide massifs 8. The distance between perforated drains GOVERNMENTAL pipe 5 is equal to the value determined with the filter coefficient and the ground water flow rate of aquifer 2 and landslide 8. escaping the surface piping, filters and wells gidronablyudatelnye closed protective caps.

Perforated drainage pipes 5 are ready to work after equipping them with filtering synthetic material and touching the bottom edge of the top of the perforated pipe of the drainage pipe 1. Under the action of gravitational forces, water from aquifers 2 and loosened soil of landslide array 8 flows through the perforated drainage pipes 5 and filtering material 6 through perforation into the drainage pipe 1 and is discharged along the stem spillway 3 to the surface or into the river. Water levels in aquifers 2 and landslide massif 8 are monitored through observation wells 9. Thus, groundwater from aquifers 2 and landslide massifs 8 is intercepted by perforated drainage pipes 5 and flows into perforated drainage pipelines 1, and then flows into them stem spillway collector 3, and then to the day surface of the soil or into the river, excluding the formation of landslides.

The advantage of this method is that the interception of groundwater flows, dewatering and further transportation of water from aquifers and landslide massifs is carried out without mechanical and other devices and energy costs, the replaceable filter material eliminates clogging of the perforation of the drainage pipelines.

The proposed invention makes it possible to arrange drainage pipelines and spillway collectors using horizontal and inclined directional drilling technologies, which eliminates the laborious work of arranging through galleries (tunnels), reduces the amount of manual work and increases the safety of a drainage-transport hydraulic system to prevent the formation of landslides.

Claims (1)

A way to prevent the formation of landslides, which consists in intercepting groundwater using a full bore drainage mine working perpendicular to the direction of flow of water flowing from the aquifers and connected to the vertical wells drilled from the surface, which are through filters that cross the aquifers and are drilled water-reducing wells that are at the intersection with aquifers, they are equipped with filter elements, in addition, in addition to the daily Hydro-observation wells are laid along the line of through filters to monitor the water level in aquifers, characterized in that, first, from the day surface of the landslide ridge under the aquifers and landslide massifs with a slope to the location of the stem spillway collector for gravity water, the wells are drilled by horizontal directional drilling perpendicular to the direction of the flow of water pouring out from the aquifers, where the perforated light is pulled to the middle of the section, the drainage pipe with a slope to the drainage collector for gravity of collected water, then a borehole passes through the top or bottom of the landslide slope by directional drilling, where the drainage pipe is drawn in, which runs under the sections where water flows in the drainage pipe meet, where an observation pipe is arranged a well in which a drainage pipe is connected to a stem spillway using a T-shaped pipe, in which a connecting branch the side of the drainage manifold can be of various lengths, vertical wells suitable for use with perforated drainage pipes filled with replaceable filtering material are suitable from the top towards the perforated drainage pipe, and water observation wells are placed between them, away from the drainage pipe, while all pipelines and surface vertical wells are closed with protective caps.

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