RU2537715C1 - Method to dehydrate landslide body - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: engineering-geological and hydrogeological survey is carried out to detect available landslide bodies. Then biolocation survey is performed, using the results of which they detect underground watercourses and discover their characteristics for detection of quantity and location of through filters. Afterwards on the surface of a ledge or a slope or a hillside outside the landslide body a header is arranged for collection of surface waters and some shallow watercourses. Afterwards from the foot of the ledge or the slope or the hillside they arrange a drainage mine deep into the ledge or the slope or the hillside outside the landslide body, from the surface of the ledge or the slope or the hillside they drill vertical wells until coupling with the drainage mine for through filers, couplings are arranged with connection chambers, through filters are lowered into vertical wells from the surface, and through filters are made in the form of pipes with perforated sections of holes and filtering elements made at the coupling level with underground watercourses. The header and the drainage mine are arranged with an inclination of i=0.005 towards the drain for self-flow of captured water.

EFFECT: provision of reliable prevention of landslide formation due to complete drainage of surface and underground waters from a landslide body.

2 cl, 3 dwg

Description

The invention relates to the field of construction and mining and can be used for fastening ledges of quarries, the construction of roads, tunnels exposed to groundwater.

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 rising water-reducing wells (see RU 2244063).

The disadvantage of this method is that this method is not applicable in quarries, on existing working sections of roads, tunnels, etc. with small landslides.

A known method of dehydration of a landslide body with a single through filter, which consists in the fact that at the foot of a ledge, or slope, or slope, or slope, a horizontal-inclined well is drilled with a diameter of up to 1.8 m and with a rise of i = 0.005-0.007 into the depth of the ledge, or a slope or slope or slope beyond the landslide body, a vertical well is drilled from the surface of the slope or slope or slope or slope until it is mated to a horizontally inclined well under a single through filter with a diameter of 200 to 500 mm, the interface is equipped with a camera In the vertical well, a single through filter is lowered from the surface, made in the form of a pipe with perforated portions of the holes and filter elements made at the interface with each aquifer, and the intersection with the aquifers is sprinkled with fine material such as gravel, crushed stone, polymer balls, while in a horizontally inclined well they lay a pipe, which in the connection chamber is connected to a pipe lowered into a vertical well, I install on the pipe connection t adjustable valve with a common water meter, and after each filter element install a water meter.

The disadvantage of this method is that this method does not provide complete abstraction of surface and groundwater.

The objective of the invention is to ensure the reliability of preventing the formation of landslides due to the complete diversion of surface and groundwater from the landslide body.

The problem is solved in that in the method of dehydration of the landslide body, which consists in the fact that they carry out engineering-geological and hydrogeological surveys to determine the presence of landslide bodies, then they conduct a biolocation survey, according to the results of which underground streams are determined and their characteristics are determined to determine the quantity and location through filters, after which a collector passes on the surface of the ledge, or slope, or slope, or slope outside the landslide body to collect surface x waters and parts of shallow watercourses, after which from the foot of the ledge, or slope, or slope, or slope, drainage work inland into the ledge, or slope, or slope, or slope, beyond the landslide body, from the surface of the ledge, or slope, or slope or sloping holes drill vertical wells before pairing with drainage for under-pass filters, couplings equip with connection chambers, pass-through filters made in the form of pipes with perforated portions of holes are lowered into vertical wells from the surface and filter elements performed at the level of interfacing with groundwater streams, and the collector and drainage mine pass with a slope of i = 0.005 in the direction of flow for self-draining of intercepted water. At the same time, the bottom and walls of the collector are made of gabion structures.

The invention is illustrated by drawings, where figure 1 shows a vertical longitudinal section of the thickness of the constituent rocks and underground waterways with a collector and a through filter; figure 2 is a plan of the drainage network; figure 3 is a vertical transverse section of the interception zone of surface and groundwater (a - section I-I, b - section II-II, c - section III-III).

The method of dewatering the landslide body 1 is carried out as follows: engineering-geological and hydrogeological surveys are carried out using a network of observation hydrogeological wells 2 to determine the presence of landslide bodies 1, then biolocation surveys are carried out, the results of which determine underground streams (deep 3 and shallow 4) and find out their characteristics (depth, direction of water movement, flow rate (l / s), number of underground watercourses, units, their grouping) to determine the number and location the position of the through filters 5, after which on the surface of the ledge, or slope, or slope, or slope 6 outside the landslide body 1, a collector 7 passes for collecting surface water and part of shallow waterways 4, after which from the foot of the ledge, or slope, or slope, or slope 6 pass the drainage mine 8 deep into the ledge, or slope, or slope, or slope 6 beyond the landslide body 1, from the surface of the ledge, or slope, or slope, or slope 6 drill vertical wells to interface with drainage mine 8 under the through filters 5 s strainers are equipped with connection chambers 9, through filters 5, made in the form of pipes with perforated portions of holes and filtering elements made at the interface level with underground waterways 3 and 4, are lowered from vertical surfaces to the vertical wells, and collector 7 and drainage outlet 8 pass with a slope i = 0.005 in the direction of the drain for self-draining of intercepted water into the drainage ditch 10 to discharge the intercepted water into a river, lake, lowland, or trough 11. The bottom and walls of the collector 8 are made of gabion structures 12. P In fact, through filters are drilled into a group of underground watercourses, so that their depression funnel 13 overlaps the adjacent one by 5-6 m to intercept water from underground watercourses 3 and 4 (see figure 2).

Thus, surface and groundwater are intercepted in the zone of the depression funnel 13 through filters 5 and collector 7 for collecting surface water and through a drainage ditch 10 by gravity are discharged into the river, lake, lowland or trough 11, without causing destructive effects of the earth's surface and all existing structures , i.e. formation of landslides is excluded.

Claims (2)

1. The method of dehydration of the landslide body, which consists in the fact that they carry out geotechnical and hydrogeological surveys to determine the presence of landslide bodies, then conduct a biolocation survey, according to the results of which underground streams are determined and their characteristics are determined to determine the number and location of through filters, after which on the surface of the ledge, or slope, or slope, or slope, outside the landslide body, a collector passes for collecting surface water and parts of shallow watercourses, moreover, from the foot of the ledge, or slope, or slope, or slope, drainage holes extend deep into the ledge, or slope, or slope, or slope beyond the landslide body, from the surface of the ledge, or slope, or slope, or slope, drill vertical wells to couplings with a drainage outlet for pass-through filters, couplings equip with connection chambers, pass-through filters made in the form of pipes with perforated portions of holes and filter elements made at the level interfacing with underground water streams, the collector and drain formulation tested with i = 0,005 slant toward the drain drift for interception of water. 2. The method according to claim 1, characterized in that the bottom and walls of the collector are made of gabion structures.

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