SU1268665A1 - Retaining structure and method of constructing same - Google Patents

Abstract

The invention relates to the field of hydraulic engineering, in particular to a retaining structure (PS) and methods for its construction. The purpose of the invention is to increase the efficiency and reliability of the PS when it is erected in narrow mountain canyons. The PS includes a ground embankment and lining (O), made of elements that are regularly placed and anchored in the embankment with elastic seals between them. Bottom version of the height of the narrowed part of the canyon is made in the form of a vertical wall stiffness (C). The lower part C is rigidly embedded in the base of the substation, and the upper part is connected by a hinge with the subsequent element O. The contact surface C with the embankment is made toothed with the horizontal lower edge of the tooth. The discharge side C is shaped, for example, stepped. At the contact of the upper part С С О the seal is rigidly connected with the element O. When the PS is erected, simultaneously with the dumping and compaction of the soil from the upper part of the SDC, the lower end of the river O is raised to the height of the narrowed part of the canyon. Subsequent dull concreting of O blocks is carried out after complete soil filling and full consolidation of the construction sediment. 2 sec. and 2 z. p. f-ly, 1 ill. you o 00 Od O5 sd

Description

The invention relates to hydraulic construction and hydraulic structures, in particular to retaining structures and methods for their construction.

The aim of the invention is to improve the efficiency and reliability of the support structure during the construction of E in the narrow mountain canyons.

The drawing shows a supporting structure, a cross-section.

11 single structure, mainly d; | Narrow mountain canyons, includes a 1 m deep uncovered lining, made of thicker H1YX and elements 2, anchored in 1 mound with elastic seals 3 between them (between elements 2). The bottom of the facing cladding at the height of the narrowed part of the canyon is made in the form of vertical stiffness of the wall 4, the lower part of which is rigidly embedded in the base 5 of the structure, and the upper through n: arpire 6 is connected with the subsequent 1, the height of the cladding element 2, and the contact surface 7 walls 4 with soil of embankment 1 are made gear with horizontally: bottom edge 8 of tooth 9. Nanorna face 10 stepkn 4 v1zN1filled with figurine, marble, stageichata. At the contact of the upper part of the wall 4 with the facing, the seal 3 is rigidly connected to the facing element 2.

Substructure works in the following manner.

As shown by the calculations of the underdeveloped state of the underground structures, non-displacement of the soil for saturation of the weight of the overlying layers and other types of loads occurs predominantly along helicopters. Therefore, the vertical wall 4 is practically not affected by the vertical movement of the soil, therefore, is reliable. At the same time, due to its rigidity and hard embedding in the base 5, as well as anchoring into the body of embankment 1, the vertical bottom wall 4 of the lining possesses reasonable stability and easily perceives the horizontal pressure of the ground. At the same time, the arrangement of the vertical wall 4 of the facing is expedient to have in the lower collar of the canyon, since here the precipitation of the soil is greatest and uneven and the positive effect from the presence of the vertical rigid wall 4 of the facing reveals most fully and, moreover, due to the possibility of simultaneous () | - about the erection of both the cladding and the earth embankment 1 (this is possible, since it is not necessary to wait for the completion of the consolidation of the saturation of the soil 1), the possibility of rapid erection (in the constricted part of the canyon, the construction volume is small) and oetapnogo commissioning of retaining structures. Due to the swivel joint of the upper part of the wall 4 and the next-higher cladding element 2, claddings make it easier

be last, i.e. all elements of the cladding, sediment i-pyiiTa on the ground, possible after completion of construction. The presence of the toothed surface 7 of the contact of the wall 4 with the ground of the structure ensures, in terms of stability and reliability of the vertical wall 4, the stress-strain state of the entire structure in this zone. The presence of teeth 9 on contact with Pascal 1 leads to the creation of a contact transition zone characterized by a lower soil density and a higher content of coarse fractions. As a result, the pressure of a single edge on the wall 4 decreases and the reliability of not only the wall 4, but also of the structure as a whole, increases. The size and characteristics of the specified transition zone can be adjusted by tilting the top face of the teeth 9. This adjustment is easiest when the teeth 9 are made on the surface 7 with a 1-horizontal bottom 8. The pressure face of the ticking wall 4 can be made shaped, for example, stepped . At the same time, the stability of the vert 11 a; 1 of the bottom wall 4 is improved, but in some cases the conditions for the production of the work of the wall are improved. In connection with the high requirements imposed on the interface of the junction of the vertical wall 4 and labeling. 1K) c; The height of the cladding element 2 can be achieved by strengthening the tightness of the seal 3 with the cladding element 2, which reduces the danger of the leakage of this node.

The erection method of the retaining platform is carried out as follows.

When constructing a sub-structure, the soil is first poured into the soil of the nasish 1 and its density is reduced. Simultaneously with the filling of the soil, the saturation 1 and its compaction from the uphill slope begin by pouring out the slope, with the lower member of the facing (wall 4) being vertically raised to the height of the narrowed part of the canyon, and subsequent continuous casting of the facing elements 2 after complete consolidation construction sediment;

Claims (4)

1. Retaining structure, including a subterranean mound and lining, extracted from the river bed, 1x, 1x and anchor elements in the saturation with elastic seals between them, in order to increase the efficiency and reliability of the structure during construction of the structures in the narrow mountain canyons, the lower rus of the facing to the height of the narrowed part of the canyon is made in the form of a vertical horn a rigid wall, the lower part of which is rigidly embedded in the base of the structure, and the upper is connected by a hinge to the lining element that follows in height, while the wall contact surface with the body of the structure is cracked in gear with the horizontal lower edge of the tooth. 2. A construction according to claim 1, characterized in that the pressure face of the wall is stepped. 3. Construction on PP. 1 and 2, characterized in that, at the contact of the upper part of the wall with the lining, the seal is rigidly connected to the element of the latter. 4. A method of erecting a retaining structure, which includes dumping the soil, compacting it and subsequently increasing concreting of the suction lining blocks, characterized in that, in order to increase the economy and reliability of the construction of the structure in narrow mountain canyons, simultaneously with dumping and compaction of the soil The sides of the upper slope vertically erected the lower facing of the facing to the height of the constricted part of the canyon, and the subsequent concrete blocking of the facing blocks lead after complete soil filling and the floor Noah consolidation building sediment. V ////////////////////////// ZV / 7