RU1794145C - Method for reinforcing landslide slope - Google Patents

Abstract

SUMMARY OF THE INVENTION: a method of strengthening a landslide slope comprises loading a landslide slope and performing drainage to divert water from the landslide body. The landslide slope is loaded at the base of the bedrock in places that are apart from each other by a distance shorter than the length of the landslide block between natural landslide ridges. Drainage is carried out along the contact front of the aquifers of the indigenous soil massif With a landslide body. After water is removed from the body, the landslide removes excess soil mass from its head part. 2 s.p. f-ly, 4 ill. ate

Description

The invention relates to construction, engineering geology, in particular to landslide-related measures involving the management of landslide processes in order to prevent its possible activation and stabilization of the slope.

A known method of strengthening a landslide slope by installing an anchor in the landslide body with the location of the anchor rods perpendicular to the sliding line of the landslide and the possibility of tensioning them ..

However, complete stabilization of the slope is not achieved by this method, since the tension of the anchor rods can cause an increase in shear forces along some of the existing secant sliding surfaces that divide the landslide into separate blocks.

There is also known a method of strengthening a landslide slope by holding landslide massifs by placing rows of piles fixed at their lower ends in stable primary soil massifs.

The disadvantage of this method is its relatively low efficiency in relation to block circus landslides with the capture of primary soils, which are characterized by the periodic formation of new landslide blocks in the primary soil massif, the translational movement of the body landslide along the horizontal sliding surface, the rotational movement of individual landslide blocks, large power and body mass landslide.

Closest to the invention in technical essence is a method of strengthening a landslide slope, including loading the landslide slope with the construction of buttresses (counter banquets) and performing drainage to divert water from the body

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landslide by sinking in the main soil mass of drainage galleries (adits).

The disadvantages of this method are that the implementation of counter-banquet loading in the lower buttress part of the slope does not eliminate the possibility of rotational movement of the body blocks of the landslide along the curved sliding surfaces, does not eliminate the possibility of the formation of a new landslide block in the main soil mass supported by the landslide head part, and does not provide, therefore, the protection of buildings and structures located near the landslide. Underground drainage facilities (galleries, adits) significantly increase the cost of building anti-landslide structures. However, the possibility of gradual watering of the contact surface of the primary soil massif with the landslide body is not completely eliminated, which creates conditions for the landslide to activate due to sloping impact of pore water and decrease effective voltages

The aim of the invention is to increase the effectiveness of strengthening block circus landslides.

This goal is achieved by the fact that in the known method of strengthening the landslide slope, including loading the landslide slope and performing drainage to divert water from the body of the landslide, the landslide slope is loaded at the base of the bedrock between natural creep ridges in places remote from each other on a distance shorter than the length of the landslide block, drainage is performed along the front of contact of the aquifers of the indigenous soil massif with the landslide body, and after water is removed from the body, the landslide is removed excess soil masses from its head part, It is preferable when the landslide slope is loaded by constructing an anchor with the possibility of tensioning or by dumping a massive buttress, while the landslide body within its base is pre-attached to the main soil massif by means of piles .

In FIG. 1 shows a plan of a circus landslide with an anchor attachment; figure 2 is a section aa in figure 1; Fig. 3 is a plan of a circus landslide with buttress loading of a bedrock in the formation zone of a landslide block; figure 4 is a section bB in Fig.Z.

The method is carried out as follows.

As a result of engineering-geological and hydrogeological studies of the landslide circus under consideration and the adjacent territory with the development of landslides of this type, as well as studying the history of the development of the landslide process in this circus,

Massif of the main horizontal sliding surface 1 and contact surface 2 of tep landslide 3 with the primary soil massif 4, a geological section of the primary soil massif with the position of horizon 5 of the umbrella 5, in which the main surface of the landslide of the landslide, underlying the solid soil 6 and the aquifer 7, passes landslide causing flooding. The length of the circus along the front between the natural ridges 8 and the length of the potential landslide block, usually formed in this circus, are distributed. The places 9 of the location of the load on the primary soil mass are established at the contact 2 with the landslide body in such a way that the circus is thus divided into parts, each of which along the front has a length shorter than the length of the block. Designed Locations

0 loads, install anchor support plates at depths below the level of critical height hKp of the exposed landslide ledge 11 of the primary soil massif, the value of which can be determined from the expression

Pkr N-Psr.

where H is the power of the landslide block during its formation in the primary soil massif;

0 hcp - power of the landslide body in its middle part.

The power plate by means of korea 12, installed outside the possible sliding surface 13, by tension

The 5 anchor bars 14 create the necessary load on the base of the bedrock. Under the protection of the load, which also simulates the functions of artificial landslide ridges, drainage is performed,

For example, drainage pipes 15 are laid directly along the contact front of the aquifers of the indigenous soil massif with the landslide body, providing a complete interception of groundwater 16 entering the landslide circus and dumping 17 of them outside the landslide. Excessive ground masses are removed from the head part of the landslide body 18. When loading is carried out by means of the massive earth buttress 19, the body part landslide in advance

within its base, they are fastened with piles 20 to an immovable soil mass. The proposed method improves the stress distribution in the primary soil massif, stops the formation of a new landslide block and the movement of the landslide body, ensuring the stability of the primary soil massif, as well as the safety of buildings and structures located on it.

Formula of the invention 1, A method of strengthening a landslide slope, including loading a landslide slope and performing drainage to divert water from the body of a landslide, characterized in that, in order to increase the effectiveness of strengthening block circus landslides, the landslide is loaded at the base of the main soil massif between natural by landslide ridges in places distant from each other by a distance shorter than the length of the landslide block, drainage is performed along the front of the contact of the aquifers of the bedrock tovogo array landslide body, and after the dewatering of the landslide body removed redundant mass ground to the head portion thereof.

2. The method according to claim 1, characterized in that the landslide slope is loaded with a canopy fastener with the possibility of tensioning it.

3. The method according to claim 1, characterized in that the landslide slope is loaded by dumping a massive buttress, while the landslide body within its base is pre-attached to the main soil massif by means of piles.