RU2062834C1 - Method for consolidating water-side landslide slope - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: pioneer prism of the material permeable to water is built nearby foot of water-side landslide slope and along it that is spaced from the surface of the water-side slope. Then lengthwise vertical drain slots are arranged in the landslide mass. For the purpose of this a number of wells is drilled in the mass. Explosive charged are seated in the wells. Then the charged are fired concurrently to form commuflet spaces or sections of continuous fracturing forming drain slot. By firing the charges water-side slope is shocked. Shock intensity is equal to or exceed seismic shocks, and provides landslide motion to form ground stop between the mass and pioneer prism. Then character and magnitude of the landslide shift are analyzed, and stability margin of the stabilized mass is determined on the basis of it. EFFECT: protection from landslides. 3 dwg

Description

 The invention relates to the field of construction and can be used in construction on landslide territories.

 A known method of strengthening the coastal landslide slope comprising a protective wall of a series of deep piles, buried in an unshifted underlying landslide stratum of soil and united by a grillage in a single holding structure / 1 /.

 During operation, piles, usually bored, experience large bending moments, which leads to an increase in the number of piles and, consequently, to increased costs.

 A known method of strengthening the coastal landslide slope, including the device of longitudinal vertical drainage slots oriented in the direction of movement of the landslide massif, and the formation of soil stop in front of the landslide massif by quality drainage of the soil at the bottom of the slope / 2 /.

 The disadvantage of this method is the uncertainty of the margin of stability of the slope after its strengthening and the impossibility of reliable prediction of the behavior of the slope under unfavorable combinations of factors affecting it, for example, seismic fluctuations and water cut of the slope to a different extent, which prevents the development of the slope.

 The technical result from the use of the invention is to increase the reliability of predicting the behavior of a slope when exposed to seismic phenomena.

 This technical result is achieved due to the fact that in the method of strengthening the coastal landslide slope, including the device of longitudinal vertical drainage slots oriented in the direction of movement of the landslide massif, and the formation of soil stop in front of the landslide massif, according to the invention, the drainage slots are carried out by explosive charges placed tiers along the depth of the wells drilled along the axes of the drainage cuts, and the soil stop is formed in the form of a pioneer prism from a permeable mat rial at a distance from the surface of the coastal slope and to the device of drainage slots, after which soil is filled up between the pioneer prism and the coastal slope, moreover, filling is carried out simultaneously and / or after the installation of drainage slots, and when the charges explode, they cause shocks in the coastal landslide massif equal to or exceeding the intensity of impact on the landslide slope calculated seismic tremors.

 In Fig.1 shows a diagram of the implementation of the method, plan: in Fig. 2 section along aa in figure 1; figure 3 section BB in figure 1.

 The method is as follows.

 At the bottom of the coastal landslide slope 1 on the fixed bottom 2 of the river 3 and along it arrange a pioneer prism 4 of permeable indelible material at a distance from the surface of the coastal slope 1 with the formation of a cavity 5 between the pioneer prism 4 and the coastal slope 1. Then in the landslide array 6, located at the boundaries of 7, arrange longitudinal vertical drainage slots 8, oriented along the length in the direction of movement of the landslide array 6, for which rows of wells are drilled along the axes of the drainage slots 6 in the landslide array 6 9 with simultaneous tiered placement of explosive charges 10 in them and filling the wells 9 with bulk material.

 After that, simultaneous explosion of charges 10 in one row of wells 9 or in several rows is carried out with the formation of camphlet cavities 11 or at least sections 12. of continuous fracturing, which form a continuous vertical drainage layer, drainage slot 8. At the same time, explosion of charges 10 cause tremors of the coastal slope 1, which cause landslide displacements of the massif 6 in the direction of the pioneer prism 4 along the surface 13 in the drawing, the new position of the landslide massif 6 is shown by a dotted line. In the process of landslide displacement of the array 6, the cavity 5 is honestly or completely filled with soil between the pioneer prism 4 and the coastal slope 1 with the formation of a ground stop in front of the landslide array 6. The formed drainage slots 8 are extended using hydraulic engineering with hydraulic permeable pioneer prism 4 and with the river 3.

 The distance between the rows of wells 9 and between the wells in a row is assigned depending on the hydrogeological conditions of the slope 1 and on the magnitude of charges 10, which is assigned from the condition of sufficiency for the formation of a continuous drainage slot 8 and for causing shocks in the landslide massif 6 equal to or greater than the intensity of the impact on the coastal landslide slope calculated seismic tremors.

 As a result of the landslide displacement of the massif 6 and the formation of a soil stop 14 in front of it, the landslide slope 1 stabilizes, and as a result of dehydration of the massif 6 with drainage slots 8, its stability margin increases. Then carry out the analysis of the nature and magnitude of the landslide displacement caused by tremors and specify the position of the sliding surface 13 and the estimated strength characteristics of soils along the sliding surface 13.

 Based on this analysis, a new margin of safety of the landslide massif 6 is determined and, in case of insufficiency, adjusted to the calculated value by additional filling the soil into the cavity 5. Then, the slope is built up. YYY2

Claims (1)

 A method of strengthening a coastal landslide slope, including a device of longitudinal vertical drainage slots oriented in the direction of movement of the landslide massif, and the equipment of the soil stop in front of the landslide massif, characterized in that the drainage slots are carried out by explosive charges placed in tiers along the depths of wells drilled along the axes of the drainage slots, and the soil stop is formed in the form of a pioneer prism of a permeable material at a distance from the surface of the coastal slope and mouth properties of drainage slots, after which soil is poured between the pioneer prism and the coastal slope, moreover, filling is carried out simultaneously and / or after the device of drainage slots, and when the charges explode, they cause shocks in the coastal landslide massif equal to or greater than the calculated seismic ones on the intensity of the impact on the landslide slope concussion.

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