SU983198A1 - Retaining wall and method of erecting same - Google Patents

Description

(54) SUPPORTING WALL AND METHOD FOR ITS CONSTRUCTION

The invention relates to the construction of the construction of retaining walls, and can be used in road, hydraulic engineering construction and in the engineering preparation of the territory for industrial and civil construction in areas where landslide processes are developed. The known retaining wall is made in the form of adjoining front arches adjacent to each other, which are mounted on the foundation base and secured with an anchor. The method for erecting such a retaining wall is carried out in the following sequence. A foundation beam is installed on the prepared surface, onto which the front arches are fastened using anchors. The disadvantage of such a retaining wall and the method of its construction is the impossibility of securing landslide slopes by it. Closest to the invention & retaining wall, including vertical supports and front arches, p & ryotruyushie spans between the vertical supports and connected with them. Such retaining walls are erected in the following manner. At certain intervals, vertical wells of large diameter are drilled under vertical supports to non-displacing bedrock. Rebar cages are installed in the wells and then filled with concrete. The upper ends of the supports obtained are fastened with anchor rods. Between the supports, a series of vertical wells are drilled, outlining the arches. After filling them with concrete, the structure works like an arched retaining wall. Such a retaining wall and the method of its construction reduce the amount of earthworks, increase the industrial character of CTpt of the G 233I However, the arched retaining wall is known and the method of its construction does not only provide the realization of the maximum possible holding capacity, since the wall cuts the soil mass into parts, denying the connection between them section above and below the retaining wall. The purpose of the invention is to increase the carrying capacity of retaining walls. This goal is achieved due to the fact that the retaining wall, including vertical supports and front arches that span the spans between the vertical supports and connected to them, is provided with additional arches, each arch, main and additional, and overlaps two spans between the vertical supports, and the vertical supports connected to the additional arches are placed between the vertical supports connected to the main arches, each arch being and in addition to performing component adjustment of the horizontal elements arranged at a distance from each other. The method of erection of the retaining wall, which includes the development of wells for vertical supports and arches, followed by filling them with concrete, the development of wells for arches is made in the horizontal direction immediately after the development of wells for vertical supports, and filling them with concrete is performed before filling with concrete wells under wrench supports. The drawing shows a retaining stack, a common .View. The retaining wall consists of vertical supports 1, the lower ends of which are embedded in non-moving bedrock. Between the vertical supports are located the front arches 2, each of which is made of a composite height of individual arch elements located at a distance from each other. Each arch 2 overlaps two spans between supports 1. Arches 2 is arranged in such a way that all supports 1 are connected between each other in pairs through one. The retaining wall is erected in the following way; t, From the surface across the creep, at the calculated distance, vertical wells are developed for supports 1 As these wells become deeper or after their final development from them, pneEMO piercers with a deviation pierce horizontal wells in both directions 6 wells for the elements of the arches 2 so that in the plan they interconnect the vertical wells one, and in height they are located one below the other. The reinforcement is passed into the horizontal wells so that its ends extend into the vertical wells and then plastic concrete is injected. Thereafter, vertical wells are filled with concrete, into which reinforcement cages are pre-installed. Due to the placement of the arch elements at different levels, the continuity of the soil massif is not disturbed. It appears to be stitched by a system of curvilinear reinforced concrete elements. In this case, the distribution of the loading of the landslide pressure, which is equalized along the length of the structure, contributes to a more complete use of the strength properties of the material of the arch structure and the soil. The invention makes it possible to significantly reduce the consumption of materials and the complexity of the construction of the retaining wall. Form of the Invention 1. The supporting wall, which includes the wrench supports and the front arches, spanning the spans between the vertical supports and connected to them, characterized in that, in order to increase the carrying capacity of the retaining wall, it is equipped with additional arches, each arch, the main and additional overlaps two spans between the vertical supports, and the vertical supports connected to the additional arches are placed between the vertical supports connected to the main arches, and each arch is basic and additional tion is made integral height of horizontal elements arranged at a distance from each other. 2. A method of erecting a retaining wall, which includes the development of wells for vertical supports and arches, followed by their concrete, characterized in that, in order to increase the bearing capacity of the retaining wall, the development of wells for arches is carried out in a goryontal direction immediately after the development of wells vertical supports, and filling them with concrete is carried out before the concrete is filled with wells under vertical supports. Sources of information taken into account in the examination of 0 86 1. US Patent No. 3316721, cl. 61-39, published in 1967. 2. Shadunts K.Sh., Peresypkin Ye.N. Calculation of high retaining walls arch type on a computer. - Lime universities. .StroitelstBo and architecture, 1974, N 4, p. 11O-I7.

Claims (2)

Claim 1. Retaining wall, including vertical supports and front arches, overlapping spans between vertical supports and connected to them, characterized in that, in order to increase the bearing capacity of the retaining wall, it is equipped with additional arches, each arch, the main and additional, overlaps two spans between the vertical supports, and the vertical supports connected to additional arches are located between the vertical supports connected to the main arches, with each arch, the main and additional, made clear in height from horizontal elements placed at a distance from each other. 2. A method of erecting a retaining wall, including developing wells for vertical supports and arches, followed by filling them with concrete, characterized in that, in order to increase the bearing capacity of the retaining wall, development of wells for arches is carried out in the horizontal direction immediately after the development of the well However, the known arched retaining wall and the method of its construction do not support the realization of the maximum possible holding capacity, since the wall cuts the soil into pieces, depriving the sections above and below the retaining wall. The aim of the invention is to increase the bearing capacity of retaining wall ₀ This goal is achieved due to the fact that the retaining wall, including vertical supports and front arches overlapping the spans between the vertical supports and connected to them, 5 is equipped with additional arches, each arch, the main and additional, and overlaps two spans between the vertical supports, and vertical supports connected to additional arches are placed between vertical supports connected to the main arches, and each arch, main and additional, is made of a horizontal height component of height cops, placed at a distance from each other. A method of erecting a retaining wall, including developing wells for vertical supports and arches, followed by filling them with concrete, developing wells for arches in the horizontal direction immediately after developing wells for vertical supports, and filling them with concrete is done before filling concrete with wells for vertical supports. The drawing shows a retaining wall, general view. The retaining wall consists of vertical supports 1, the lower ends of which are embedded in non-moving bedrock. Between the vertical supports are the front arches 2, each of which is made integral in height from individual arched elements placed at a distance from each other. Each arch 2 overlaps two spans between the supports 1. Arches 2 are located in such a way that they connect all the supports 1 in pairs through one. The retaining wall is constructed as follows. FROM, From the surface across the landslide at a calculated distance, vertical wells are developed for the supports 1. As these wells are deepened or after their final development, they use horizontal drills with deviation punch holes to deviate vertical supports in both directions and fill them with concrete before filling the wells with concrete vertical supports.